Observações No OPD Prof

Observações no OPD Prof. Jorge Meléndez

Observa)ons at OPD Coordinates Longitude : -45° 34' 57" La)tude : -22° 32' 04" Al)tude : 1864m

1 Tel. IAG (60cm) + CCD IkonL Field with focal reducer: 13’ x 13’ Note: Pending conﬁrma)on

2 Error in V magnitude for tel. 60cm, 300 s

CCD009

3 First job: characteriza)on of CCD (using ﬂats at IAG or 1,6m telescopes)

Satura)on Linear limit Determine: 1) Linearity limit (how many counts?) 2) Satura)on (how many counts?) 3) Plot similar to this ﬁgure

Bias

4 Second job: make 1 image, each in 3 ﬁlters. Combine the frames to obtain a color image Example: image taken by IAG/USP undergrads in 2014, using the 60cm telescope Op)ons available: • Planet • Planetary Nebula • HII region • Open cluster • Globular Cluster

• Galaxy 5 Second job. Make 1 predy pictures (take 3 colors [sugges)on BVR] and combine them). Category 1: Planet Category 2: Planetary Nebula Category 3: H II Region Category 4: Open Cluster Category 5: Globular Cluster Category 6: Galaxy You must choose 1 main object in one category and one backup object in another category. First come First served. Tell me at class or send email to everybody (reply all) 6 Category 1: Planet Jupiter Saturn Category 2: Planetary Nebula M27 Category 3: H II Region Triﬁd (M20) Eagle (M16) Omega (M17)

7 Category 4: Open Cluster M6 (buderﬂy) M7 M48 NGC 2547 NGC 3293 NGC 3766 NGC 6633 Jewel Box Category 5: Globular Cluster M3 M4 M5 M13 M15 M22 NGC 6397 NGC 6752 Omega Cen 47 Tuc Category 6: Galaxy Centaurus A

8 First come ﬁrst served: send un)l June 6, 18:00

Send 2 targets (indica)ng name and coordinates), one of each kind (for ex. 1 planet and 1 globular cluster), by email, with copy to everybody, in the OPD format. You have to observe only 1, the other is a backup object.

The targets should be observable for at least 2 hours.

9 Part 3: differen)al photometry or ex)nc)on at OPD. Only 1 filter. Feel free to make groups of 2 people (valid also for ex)nc)on) Op)ons: - Exoplanet transits - Nova - Delta Scu) stars - Any other short-period (<= 2,5 hours) variable - Eclipsing binaries Ex)nc)on at OPD: observe at least at 4 different airmasses 10

Some photometric standards for 4238 LANDOLT Vol. 137 The Astronomical Journal,137:4186–4269,2009May doi:10.1088/0004-6256/137/5/4186 C 2009. The American Astronomical Society. All rights reserved. Printed in the U.S.A. ⃝ ex)nc)on UBVRI PHOTOMETRIC STANDARD STARS AROUND THE CELESTIAL EQUATOR: UPDATES AND ADDITIONS Arlo U. Landolt1 Department of Physics and Astronomy, Louisiana State University, Baton Rouge, LA 70803-4001, USA; [email protected] Received 2008 November 10; accepted 2008 December 24; published 2009 April 2 o ,2009 5, No. Table 2 ABSTRACT (Continued) New broadband UBVRI photoelectric observations on the Johnson–Kron–Cousins photometric system have been made of 202 stars around the sky, and centered at the celestial equator. These stars constitute both an update of and Mean Error of the Mean additions to a previously published list of equatorial photometric standard stars. The list is capable of providing, for Star α (J2000.0) δ (J2000.0) VBVUBVRRIVInm V BVUBVRRIVI both celestial hemispheres, an internally consistent homogeneous− broadband standard− photometric− system− around − − − − − − (1)the sky. When these (2) new measurements (3) are included (4) with those previously (5) published (6) by Landolt (7) (1992), (8) the entire (9) (10) (11) (12) (13) (14) (15) (16) (17) 99 447list of standard 07 56 stars 06 in.686 this paper00 encompasses 20 42.37 the 9.419 magnitude range0.068 8.90

0.35 < (B V ) < +2.30. − − − − − − 2009 5, No. 100 241− 08− 52 34.049 00 39 48.96 10.140 +0.157 +0.106 +0.078 +0.085 +0.162 67 57 0.0006 0.0005 0.0009 0.0004 0.0004 0.0004 Key words: catalogs – standards− – stars: fundamental parameters – techniques: photometric Table 2 100 162Online-only 08 material: 53 14.418machine-readable00 43 30 and.35 VO tables 9.150 +1.276 +1.495 +0.649(Continued) +0.552 +1.202 86 67 0.0009 0.0008 0.0012 0.0004 0.0006 0.0006 − Figure 46. Field, 15′ on a side, of the sequence in the vicinity of the star Figure 60. Field, 15 on a side, of the sequence in the vicinity of the star 100 267 08 53 17.212 00 41 29.35 13.027 +0.485 0.062 +0.307 +0.302 +0.608 3 3 0.0069′ 0.0023 0.0133 0.0075 0.0040 0.0040 − −PG0918+029. PG1047+003. Mean Error of the Mean 100 269 08 53 18.464 00 41 09.81 12.350 +0.547 0.040 +0.335 +0.331 +0.666 3 3 0.0035 0.0029 0.0150 0.0035 0.0029 0.0017 − GaAs photomultipliers− were used during this observational 100Star 280 081.α INTRODUCTION 53(J2000.0) 35.477 00δ (J2000.0) 36 41.16 11.799VB +0.493VU0.001BV +0.295RR +0.291IV +0.588Inm 72 61 0.0007 V 0.0007 BVU 0.0010BV 0.0006RR 0.0006IV 0.0009I − program,− albeit− the− majority of− the data were− collected− with − − − − − 100(1) 394 08 53 54 (2).515 00 32 (3) 22.08 11.384 (4) +1.317 (5) +1.457 (6) +0.705 (7) +0.636 (8) +1.341 (9) 9 (10) 5 (11) 0.0080 (12) 0.0040 (13) 0.0087 (14) 0.0023 (15) 0.0027 (16) 0.0030 (17) Over the past 35 years, the author has− published photometric one photomultiplier. PG0918+029Dstandard99 447 star papers 09(Landolt 07 21 56 21 061973.936.686, 1983 +02, 199200 47 20, 2007a 28 42..2837;Landolt 12.272 9.419 +1.044Atotalof224nightswereassignedoveranine-yeartime0.068 +0.8210.220 +0.5750.031 +0.5350.041 +1.1080.073 108 19 9711 0.00060.0021 0.00050.0030 0.00710.0008 0.00160.0004 0.00180.0004 0.0018 0.0006 − − − − − − PG0918+029&Uomoto100 2412007)whereinthe 09 08 21 52 28 34UBV.217.049magnitudes +0200 46 39 and 02 48 color..2796 indices 13.327 10.140interval. +0.1570.271 Useful +0.106 data1.081 were obtained +0.0780.129 on +0.085 1500.159 of the assigned+0.1620.288 45 67 27 57 0.0024 0.0006 0.0024 0.0005 0.0030 0.0009 0.0019 0.0004 0.0055 0.0004 0.0063 0.0004 − nights,− implying− that 66.7%− of the nights− were photometric.− PG0918+029Balways have been based 09 on21 the 32 defining.924 paper +02 of 47 Johnson 59.08 (1963 13.963), +0.765 +0.366 +0.417 +0.370 +0.787 20 11 0.0034 0.0072 0.0159 0.0025 0.0045 0.0056 and100 the 162RI photometry 08 has 53 been 14.418 based on00 the 43 work 30. of35 Cousins 9.150From +1.276 another viewpoint, +1.495 a total +0.649 of 2206 night-time +0.552 hours +1.202 were 86 67 0.0009 0.0008 0.0012 0.0004 0.0006 0.0006 PG0918+029A 09 21 35.107 +02− 46 19.43 14.490 +0.536 0.032 +0.325 +0.336 +0.661 29 14 0.0033 0.0058 0.0095 0.0039 0.0076 0.0085 UBVRI (1001976 267). A summary 08of the53 17 author’s.212 observing00 41 29 and.35 analysis 13.027assigned. +0.485 Useful− data0.062 were obtained +0.307 during +0.302 1192 hr, indicating +0.608 3 3 0.0069 0.0023 0.0133 0.0075 0.0040 0.0040 PG0918+029Cprocedures may be found 09 21 in 42 Landolt.306 (2007b +02− ). 46 37.07 13.537that +0.631 54.1% of the− +0.087 assigned hours +0.367 were photometric. +0.357 It should+0.722 be 21 10 0.0020 0.0028 0.0048 0.0015 0.0022 0.0028 100 269 08 53 18.464 00 41 09.81 12.350 +0.547 0.040 +0.335 +0.331 +0.666 3 3 0.0035 0.0029 0.0150 0.0035 0.0029 0.0017 The current paper essentially is an update− and extension of noted that heretofore,− the author always has quoted the number11 BDthe100 photometry 28012 2918 which 09 08 appeared 31 53 19 35.37.477 in Landolt1300 (1992 29 36 19). 41..310.067+1.501+1.166+1.067+1.318+2.3851390.00250.00280.00750.00390.00220.004216 11.799of nights +0.493 which were0.001 photometric, +0.295 which +0.291 is the method +0.588 used by 72 61 0.0007 0.0007 0.0010 0.0006 0.0006 0.0009 − −− − 4195 STARS STANDARD EQUATORIAL PG0942100 394029D 09 08 45 53 08 54.637.515 0300 05 32 54 22..4508 13.683 11.384most +0.576 +1.317 observers. +0.064 +1.457 There is a difference. +0.341 +0.705 +0.329 +0.636 +0.668 +1.341 13 9 8 5 0.0009 0.0080 0.0029 0.0040 0.0054 0.0087 0.0015 0.0023 0.0039 0.0027 0.0044 0.0030 − −− PG0942PG0918+029D029A 092. 09 OBSERVATIONS45 21 09 21.90.936 +0203 10 47 14 28..214.738+0.888+0.552+0.563+0.474+1.0351680.00210.00210.00650.00230.00410.005028 12.272The +1.044 initiation +0.821 of this program +0.575 encountered +0.535 problems +1.108 with 19 11 0.0021 0.0030 0.0071 0.0016 0.0018 0.0018 − − successive photomultipliers. The photomultipliers with which PG0942PG0918+029029B 09 09 45 21 11 28.574.217 +0203 06 46 58 02..1127 14.105 13.327 +0.5730.271 +0.0141.081 +0.3530.129 +0.3410.159 +0.6930.288 45 13 27 8 0.00240.0022 0.00240.0014 0.00430.0030 0.00180.0019 0.00360.0055 0.0041 0.0063 New− broadband UBVRI photoelectric− observations on the data− were obtained,− including− Universal Time− (UT) dates− were: PG0942Johnson–Kron–CousinsPG0918+029B029 09 09 45 photometric 21 11 32.85.924 system +0203 09 47have 21 59. been.014.01208 made 13.963astandbyRCA31034,serialno.C20453incoldbox58inthe +0.7650.298 +0.3661.177 +0.4170.132 +0.3700.165 +0.7870.296 21 20 13 11 0.0022 0.0034 0.0025 0.0072 0.0031 0.0159 0.0026 0.0025 0.0058 0.0045 0.0067 0.0056 − − − − − − − PG0942ofPG0918+029A 202 stars029C around the 09 09 sky, 45 21 14 and 35.386. centered107 at +0203 the 06 46 celestial 40 19..2843 equator. 14.950 14.490interval +0.803 +0.536 1993 June +0.3380.032 14 through +0.488 +0.325 1993 June +0.395 +0.336 17; a Hamamatsu +0.884 +0.661 16 29 148 0.0024 0.0033 0.0024 0.0058 0.0049 0.0095 0.0021 0.0039 0.0045 0.0076 0.0053 0.0085 UBVRI − − − 101OnePG0918+029C 315 hundred thirty-two 09 09 54 of 21 51 these 42.298.306 202 stars +0200 update 27 46 31 37. magnitudes.0907 11.249 13.537R943-02, +1.153 +0.631 serial +1.056 no.+0.087 EA 4267 +0.612 +0.367in cold box 50+0.559 +0.357 in the interval +1.172 +0.722 1994 19 21 11 10 0.0037 0.0020 0.0018 0.0028 0.0067 0.0048 0.0016 0.0015 0.0011 0.0022 0.0021 0.0028 and color indices in Landolt (1992). The− other 70 stars are May 20 to 1995 July 24; the LSU C31034A-02 in cold box 60 101 316 09 54 52.034 00 18 34.51 11.552 +0.493 +0.032 +0.293 +0.291 +0.584 17 10 0.0027 0.0024 0.0036 0.0019 0.0029 0.0032 completelyBD 12 2918 new additions 09 31 to 19that.37 list of− standard13 29 stars. 19.310.067+1.501+1.166+1.067+1.318+2.3851390.00250.00280.00750.00390.00220.0042in the interval 1996 March 13 through 1998 May 8; and an RCA 101The L1− new photometric 09 55 results 29.09 in this paper−00 21 represent 42.616.501+0.757 both an 31034A-02 in KPNO0.104 cold box +0.421 53 in the +0.527 interval 1998 +0.947 July 7 4 1 0.0310 0.0340 0.0290 4195 0.0225 0.0855 0.1070 STARS STANDARD EQUATORIAL PG0942 029D 09 45 08.637 − 03 05 54.45 13.683 +0.576− +0.064 +0.341 +0.329 +0.668 13 8 0.0009 0.0029 0.0054 0.0015 0.0039 0.0044 101update 320 of− and addition 09 to 55 the 32 list.924 of photometric−00 22 standard 32.72 stars 13.823 in through +1.052 2001 December +0.690 11. +0.581 Forty-three +0.561 nights of useful +1.141 data 11 7 0.0048 0.0103 0.0181 0.0039 0.0036 0.0045 LandoltPG0942 (1992029A). Most of 09 these 45 09 photometric.90 − standard03 10 14 stars.214.738+0.888+0.552+0.563+0.474+1.0351680.00210.00210.00650.00230.00410.0050 inhabit were taken with the first three photomultipliers. One hundred − − 101abandoflessthan5PG0942 L2029B 09◦ 09width, 55 45 34 11 centered.688.574 on00 the03 18 06celestial 50 58..1011 equator, 15.770 14.105sixteen +0.602 +0.573 nights of +0.082 +0.014 useful data +0.321 +0.353were taken with +0.304 +0.341 the last +0.625identified +0.693 1 13 1 8 0.0022 0.0014 0.0043 0.0018 0.0036 0.0041 − −− ··· ··· ··· ··· ··· ··· 101aroundPG0942 404 the029 celestial sphere.09 09 55 45 40 11.673.85 0003 18 09 22 21..23014.012 13.459photomultiplier. +0.9960.298 +0.6971.177 +0.5300.132 +0.5000.165 +1.0290.296 21 12 13 7 0.00220.0040 0.00250.0078 0.00950.0031 0.00490.0026 0.00320.0058 0.0055 0.0067 Stars whose− photometry was upgraded−− came primarily from Each− photomultiplier−Figure 47. Field, had− 15 a′ history.on a side, of The− the sequence photomultiplier in− the vicinity in of the star Figure 61. Field, 15′ on a side, of the sequence in the vicinity of the stars G 101PG0942 324029C 09 09 55 45 56 14.650.386 0003 23 06 15 40..1028 14.9509.737 +1.161 +0.803 +1.145PG0942 +0.338029. +0.591 +0.488 +0.519 +0.395 +1.109 +0.884 60 16163-50 47 8 and G 0.0005 163-51. 0.0024 0.0008 0.0024 0.0018 0.0049 0.0006 0.0021 0.0007 0.0045 0.0010 0.0053 Landolt (1992− ). However, several brighter−− stars taken from Lan- cold box 58 was meant− to be, and was used as, a standby as a 101dolt101 408 ( 3151983)alsowereobservedandincluded.Newphotometric 09 09 56 54 08 51.001.298 0000 12 27 41 31..2809 14.785 11.249search +1.200 +1.153 was made +1.347 +1.056 for a stable +0.718 +0.612photomultiplier. +0.603 +0.559 Since its +1.321 +1.172sensitiv- 2 19 1 11 0.0240 0.0037 0.0438 0.0018 0.0170 0.0067 0.0170 0.0016 0.0120 0.0011 0.0297 0.0021 −− 101sequences101 262 316 have been 09 established, 09 56 54 08 52.096.034 anchored0000 by 29 18 blue 50 34. stars.5051 which 14.295 11.552ity +0.784 +0.493 was low, it +0.297was +0.032 used for +0.440+0.293 only one observing +0.387 +0.291 run, +0.827 and +0.584 con- 4 17 2 10 0.0045 0.0027 0.0160 0.0024 0.0205 0.0036 0.0075 0.0019 0.0100 0.0029 0.0035 0.0032 −− 101already101 326 L1 were standard 09 09 stars 56 55 08 themselves 29.101.09 (Landolt0000 27 21 101992 42..94616.501+0.757). Exam- 14.923tributed +0.729 useful +0.227data0.104 on four +0.406 +0.421nights of observing. +0.375 +0.527 After +0.780 +0.947 roughly 13 4 6 1 0.0078 0.0310 0.0094 0.0340 0.0128 0.0290 0.0055 0.0225 0.0111 0.0855 0.0122 0.1070 ples of such stars are Feige 24 and G 93-48.−− one year of use,− the Hamamatsu developed an instability. It was 101101 327 320 09 09 56 55 08 32.86.924 0000 25 22 53 32..513.441+1.155+1.139+0.717+0.574+1.29028150.00320.00570.00980.00230.00170.002872 13.823 +1.052 +0.690 +0.581 +0.561 +1.141 11 7 0.0048 0.0103 0.0181 0.0039 0.0036 0.0045 All of the new data in this paper were−− taken at the Cerro replaced by the LSU C31034A-02, so-called because the au- 101Tololo 410 Inter-American 09 56 Observatory 09.136 (CTIO)00 14 1.5 02 m.23 telescope 13.646thor’s +0.546 institution paid0.063 for it. That +0.298 photomultiplier, +0.326 C31034A-02, +0.623 2 1 0.0085 0.0014 0.0021 0.0106 0.0035 0.0064 101 L2 09 55 34.688 − 00 18 50.10 15.770 +0.602− +0.082 +0.321 +0.304 +0.625 1 1 101together 413 with GaAs 09 photomultipliers. 56 14.009 The−00 author 11 54. always86 12.583 has was +0.983 a successor +0.716 to RCA 31034A-02 +0.529 models, +0.497 and was +1.025manufac- 9 6 0.0023··· 0.0047 ··· 0.0103 ··· 0.0033 ··· 0.0040 ··· 0.0040 ··· tried101 404 to maintain the 09 dictum 55 40. (Landolt673 −2007b00 18)thatpotential 22.23 13.459tured +0.996 by Burle Industries,+0.697 which +0.530 had purchased +0.500 the old +1.029 RCA 12 7 0.0040 0.0078 0.0095 0.0049 0.0032 0.0055 101 268 09 56 17.377 −00 31 57.05 14.380 +1.531 +1.381 +1.040 +1.200 +2.237 11 5 0.0078 0.0199 0.0769 0.0048 0.0036 0.0045 standard101 324 star data only 09 should 55 56. be650 obtained− 00 with 23 15 one.10 detector. 9.737tubes’ +1.161 division. +1.145 The “LSU” +0.591 photomultiplier +0.519 also developed +1.109 a 60 47 0.0005 0.0008 0.0018 0.0006 0.0007 0.0010 − 101However,101 330 408 the photomultipliers 09 09 56 56 20 08.587 did.001 not cooperate;0000 27 12 22 41 four..1228 different 13.723 14.785problem, +0.577 +1.200 never +1.347successfully0.026 +0.346 +0.718 repeated or +0.338 diagnosed +0.603 in +0.684 +1.321 the lab- 28 2 14 1 0.0038 0.0240 0.0038 0.0438 0.0051 0.0170 0.0028 0.0170 0.0057 0.0120 0.0064 0.0297 − oratory. In order− to be as confident as possible in data being 101 415 09 56 23.145 −00 16 53.02 15.259 +0.577 0.008 +0.346 +0.350 +0.695 2 1 0.0028 0.0247 0.0021 0.0198 0.0134 0.0332 101 262 09 56 08.096 00 29 50.50 14.295acquired, +0.784 a switch +0.297 was made +0.440 to the fourth +0.387 photomultiplier, +0.827 an 4 2 0.0045 0.0160 0.0205 0.0075 0.0100 0.0035 1 −− − 101101Visiting 270 326 Astronomer, Cerro 09 09 56 Tololo 56 27 08 Inter-American.023.101 0000 Observatory, 35 27 44 10..1594 National 13.711 14.923RCA +0.554 +0.729 31034A-02 +0.055 +0.227 in KPNO cold +0.332 +0.406 box 53. That +0.306 +0.375 tube became +0.637 +0.780 avail- 2 13 1 6 0.00780.0014 0.0094 0.0127 0.0128 0.0049 0.0055 0.0071 0.0111 0.0014 0.0122 Optical Astronomical Observatory, which is operated−− by the Association of ··· 101Universities101 278 327 for Research 09 in 09 Astronomy, 56 56 54 08.467.86 Inc., under00 contract00 29 25 38 with 53..39513.441+1.155+1.139+0.717+0.574+1.29028150.00320.00570.00980.00230.00170.0028 the National 15.494able +1.041 with the closure +0.737 of photoelectric +0.596 photometry +0.548 programs +1.144 at 2 1 0.0184 0.0226 0.0269 0.0198 0.0148 0.0346 −− 101Science101 L3 410 Foundation. 09 09 56 56 55 09.025.136 0000 30 14 25 02..4723 15.953 13.646Kitt +0.637 +0.546 Peak. 0.0630.033 +0.298+0.396 +0.395+0.326 +0.792+0.623 2 1 1 0.0233 0.0085 0.0184 0.0014 0.0707 0.0021 0.0382 0.0106 0.0488 0.0035 0.0870 0.0064 −− − 101101 281 413 09 09 57 56 05 14.02.009 0000 31 11 43 54..211.576+0.812+0.415+0.453+0.412+0.86423150.00230.00130.00310.00130.00090.001386 12.583 +0.983 +0.716 +0.529 +0.497 +1.025 9 6 0.0023 0.0047 0.0103 0.0033 0.0040 0.0040 −− 4186 101101 L4 268 09 09 57 56 07 17.76.377 0000 31 31 24 57..416.264+0.793+0.362+0.578+0.062+0.644205 14.380 +1.531 +1.381 +1.040 +1.200 +2.237 11 10.01700.01410.00140.01910.26380.2807 5 0.0078 0.0199 0.0769 0.0048 0.0036 0.0045 − 101 L5 09 57 10.21 −00 30 40.315.928+0.622+0.115+0.414+0.305+0.7202 10.01060.02830.08630.00780.01340.0212 101 330 09 56 20.587 − 00 27 22.12 13.723 +0.577 0.026 +0.346 +0.338 +0.684 28 14 0.0038 0.0038 0.0051 0.0028 0.0057 0.0064 101 421 09 57 16.107 −00 17 18.20 13.180 +0.507 −0.031 +0.327 +0.296 +0.623 2 1 0.0021 0.0021 0.0035 0.0021 0.0007 0.0014 101 415 09 56 23.145 − 00 16 53.02 15.259 +0.577 −0.008 +0.346 +0.350 +0.695 2 1 0.0028 0.0247 0.0021 0.0198 0.0134 0.0332 101 338 09 57 17.754 −00 21 00.34 13.788 +0.634− +0.024 +0.350 +0.340 +0.691 2 1 0.0071 0.0071 0.0042 0.0021 0.0035 0.0014 101 270 09 56 27.023 − 00 35 44.15 13.711 +0.554 +0.055 +0.332 +0.306 +0.637 2 1 0.0014 0.0127 0.0049 0.0071 0.0014 − ··· 101101 339 278 09 09 57 56 18 54.389.467 0000 25 29 01 38..8039 14.449 15.494 +0.850 +1.041 +0.501 +0.737 +0.458 +0.596 +0.398 +0.548 +0.857 +1.144 2 2 1 1 0.0099 0.0184 0.0085 0.0226 0.0099 0.0269 0.0240 0.0198 0.0042 0.0148 0.0290 0.0346 −− 101101 424 L3 09 09 57 56 20 55.263.025 0000 16 30 25 25..8847 15.058 15.953 +0.764 +0.637 +0.2730.033 +0.429 +0.396 +0.425 +0.395 +0.855 +0.792 2 2 1 1 0.0276 0.0233 0.0389 0.0184 0.0191 0.0707 0.0226 0.0382 0.0205 0.0488 0.0431 0.0870 −− − 101 281 09 57 05.02 00 31 43.211.576+0.812+0.415+0.453+0.412+0.86423150.00230.00130.00310.00130.00090.0013 − 101 L4 09 57 07.76 00 31 24.416.264+0.793+0.362+0.578+0.062+0.6442 10.01700.01410.00140.01910.26380.2807 − 101 L5 09 57 10.21 00 30 40.315.928+0.622+0.115+0.414+0.305+0.7202 10.01060.02830.08630.00780.01340.0212 − 101 421 09 57 16.107 00 17 18.20 13.180 +0.507 0.031 +0.327 +0.296 +0.623 2 1 0.0021 0.0021 0.0035 0.0021 0.0007 0.0014 − − 101 338 09 57 17.754 00 21 00.34 13.788 +0.634 +0.024 +0.350 +0.340 +0.691 2 1 0.0071 0.0071 0.0042 0.0021 0.0035 0.0014 − 101 339 09 57 18.389 00 25 01.80 14.449 +0.850 +0.501 +0.458 +0.398 +0.857 2 1 0.0099 0.0085 0.0099 0.0240 0.0042 0.0290 − 101 424 09 57 20.263 00 16 25.88 15.058 +0.764 +0.273 +0.429 +0.425 +0.855 2 1 0.0276 0.0389 0.0191 0.0226 0.0205 0.0431 − 20LNOTVl 137 Vol. LANDOLT 4200 No. 5, 2009 UBVRI EQUATORIAL STANDARD STARSTable 2 4255 (Continued)

Mean Error of the Mean Star α (J2000.0) δ (J2000.0) VBVUBVRRIVInm V BVUBVRRIVI − − − − − − − − − − (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) 109 954 17 44 15.844 00 02 16.07 12.436 +1.296 +0.956 +0.764 +0.731 +1.496 9 5 0.0093 0.0060 0.0203 0.0017 0.0027 0.0033 − 109 199 17 45 02.635 00 29 28.71 10.990 +1.739 +1.967 +1.006 +0.900 +1.904 3 2 0.0098 0.0040 0.0035 0.0035 0.0040 0.0046 − 109 231 17 45 19.964 00 25 51.60 9.333 +1.465 +1.591 +0.787 +0.705 +1.494 90 65 0.0008 0.0008 0.0023 0.0004 0.0005 0.0006 − 109 537 17 45 42.448 00 21 35.43 10.353 +0.609 +0.226 +0.376 +0.393 +0.769 76 55 0.0022 0.0010 0.0017 0.0008 0.0008 0.0013 − G21 15 18 27 13.08 +04 03 46.713.889+0.092 0.598 0.039 0.030 0.069 19 9 0.0046 0.0053 0.0067 0.0046 0.0094 0.0094 − − − − 110 229 18 40 45.662 +00 01 49.78 13.649 +1.910 +1.391 +1.198 +1.155 +2.356 30 16 0.0031 0.0091 0.0225 0.0018 0.0020 0.0026 110 230 18 40 51.489 +00 02 23.28 14.281 +1.084 +0.728 +0.624 +0.596 +1.218 21 11 0.0031 0.0050 0.0116 0.0020 0.0044 0.0050 110 232 18 40 52.340 +00 01 54.78 12.516 +0.729 +0.147 +0.439 +0.450 +0.889 28 16 0.0032 0.0028 0.0045 0.0015 0.0019 0.0025 110 233 18 40 52.709 +00 00 50.85 12.771 +1.281 +0.812 +0.773 +0.818 +1.593 22 10 0.0028 0.0034 0.0070 0.0021 0.0015 0.0021 110 239 18 41 19.795 +00 00 13.58 13.858 +0.899 +0.584 +0.541 +0.517 +1.060 1 1 ··· ··· ··· ··· ··· ··· 110 339 18 41 26.51 +00 08 25.413.607+0.988+0.776+0.563+0.468+1.0361 1 ··· ··· ··· ··· ··· ··· 110 340 18 41 28.448 +00 15 23.00 10.025 +0.308 +0.124 +0.171 +0.183 +0.354 111 92 0.0008 0.0006 0.0014 0.0004 0.0006 0.0007 2009 5, No. Table 2 110 477 18 41 43.200 +00 26 42.78 13.988 +1.345 +0.715 +0.850(Continued) +0.857 +1.707 21 11 0.0072 0.0131 0.0375 0.0031 0.0039 0.0063 Figure110 98. 246Field, 18 10 41on 50 a. side,757 of the +00 star 05 G 04 21-15..51 12.706 +0.586 0.129 +0.381 +0.410 +0.790 1 1 ′ − Figure 103. Field, 10′ on a side, of SA 110 SF2. ··· ··· ··· ··· ··· ··· 110 346 18 41 55.208 +00 09 58.39 14.757 +0.999 +0.752 +0.697 +0.646 +1.345 1 1 Mean Error of the Mean ··· ··· ··· ··· ··· ··· Star110 349 18 42α 13(J2000.0).409 +00 10δ (J2000.0) 15.21 15.095VB +1.088VU +0.668BV +0.503 RR0.059IV +0.477Inm 1 1 V BVUBVRRIVI − − − − − − ··· ···− ···− ···− ···− ···− (1)110 355 18 42 18.933 (2) +00 08 24 (3).22 11.944 (4) +1.023 (5) +0.504 (6) +0.652 (7) +0.727 (8) +1.378 (9) 16 (10) 8 (11) 0.0027 (12) 0.0030 (13) 0.0045 (14) 0.0022 (15) 0.0022 (16) 0.0035 (17) 110 358 18 42 35.516 +00 15 01.97 14.430 +1.039 +0.418 +0.603 +0.543 +1.150 1 1 99 447 07 56 06.686 00 20 42.37 9.419 0.068 0.220 0.031 0.041 0.073 108 97··· 0.0006 ··· 0.0005 ··· 0.0008 ··· 0.0004 ···0.0004 0.0006··· 110 360 18 42 40.477 +00− 09 10.71 14.618 +1.197− +0.539− +0.715− +0.717− +1.432− 5 2 0.0094 0.0192 0.0291 0.0085 0.0031 0.0080 100 241 08 52 34.049 00 39 48.96 10.140 +0.157 +0.106 +0.078 +0.085 +0.162 67 57 0.0006 0.0005 0.0009 0.0004 0.0004 0.0004 110 361 18 42 45.010 +00− 08 04.70 12.425 +0.632 +0.035 +0.361 +0.348 +0.709 30 17 0.0022 0.0022 0.0029 0.0018 0.0020 0.0029 100110 162 362 18 42 08 48 53.277 14.418 +00 0600 27 43.77 30.35 15.693 9.150 +1.333 +1.276 +3.919 +1.495 +0.918 +0.649 +0.885 +0.552 +1.803 +1.202 1 86 1 67 0.0009 0.0008 0.0012 0.0004 0.0006 0.0006 − ··· ··· ··· ··· ··· ··· 100110 267 266 18 42 08 48 53.798 17.212 +00 0500 06 41.44 29.35 12.018 13.027 +0.889 +0.485 +0.4110.062 +0.538 +0.307 +0.577 +0.302 +1.111 +0.608 8 3 3 3 0.0014 0.0069 0.0028 0.0023 0.0039 0.0133 0.0014 0.0075 0.0021 0.0040 0.0032 0.0040 − − 100 269 08 53 18.464 00 41 09.81 12.350 +0.547 0.040 +0.335 +0.331 +0.666 3 3 0.0035 0.0029 0.0150 0.0035 0.0029 0.0017 110 L1 18 42 50.187 +00− 07 12.76 16.252 +1.752 +2.953− +1.066 +0.992 +2.058 1 1 100 280 08 53 35.477 00 36 41.16 11.799 +0.493 0.001 +0.295 +0.291 +0.588 72 61··· 0.0007 ··· 0.0007 ··· 0.0010 ··· 0.0006 ··· 0.0006 ··· 0.0009 110 364 18 42 52.785 +00− 07 54.89 13.615 +1.133 +1.095− +0.697 +0.585 +1.281 15 7 0.0021 0.0067 0.0088 0.0015 0.0026 0.0021 100110 394 157 18 42 08 56 53.472 54.515 00 0800 58 32.45 22.08 13.491 11.384 +2.123 +1.317 +1.679 +1.457 +1.257 +0.705 +1.139 +0.636 +2.395 +1.341 7 9 3 5 0.0057 0.0080 0.0257 0.0040 0.1750 0.0087 0.0034 0.0023 0.0049 0.0027 0.0057 0.0030 − − PG0918+029D110 365 18 42 09 57 21.444 21.936 +00 +02 07 23 47.12 28.28 13.470 12.272 +2.261 +1.044 +1.895 +0.821 +1.360 +0.575 +1.270 +0.535 +2.631 +1.108 45 19 20 11 0.0027 0.0021 0.0091 0.0030 0.0313 0.0071 0.0021 0.0016 0.0022 0.0018 0.0034 0.0018 PG0918+029 09 21 28.217 +02 46 02.27 13.327 0.271 1.081 0.129 0.159 0.288 45 27 0.0024 0.0024 0.0030 0.0019 0.0055 0.0063 110 496 18 42 59.294 +00 31 09.13 13.004 +1.040− +0.737− +0.607− +0.681− +1.287− 912 4 0.0027 0.0060 0.0230 0.0020 0.0023 0.0043 PG0918+029B110 273 18 42 09 59 21.542 32.924 +00 +02 02 23 47.92 59.08 14.686 13.963 +2.527 +0.765 +1.000 +0.366 +1.509 +0.417 +1.345 +0.370 +2.856 +0.787 5 20 2 11 0.0161 0.0034 0.0783 0.0072 1.3416 0.0159 0.0040 0.0025 0.0103 0.0045 0.0107 0.0056 PG0918+029A 09 21 35.107 +02 46 19.43 14.490 +0.536 0.032 +0.325 +0.336 +0.661 29 14 0.0033 0.0058 0.0095 0.0039 0.0076 0.0085 UBVRI 110 497 18 43 02.506 +00 30 56.79 14.196 +1.052 +0.380− +0.606 +0.597 +1.203 5 2 0.0054 0.0063 0.0143 0.0067 0.0045 0.0063 PG0918+029C110 280 18 43 09 06 21.960 42.30600 +02 03 41 46.52 37.07 12.996 13.537 +2.151 +0.631 +2.133 +0.087 +1.235 +0.367 +1.148 +0.357 +2.384 +0.722 25 21 12 10 0.0034 0.0020 0.0144 0.0028 0.0906 0.0048 0.0018 0.0015 0.0030 0.0022 0.0036 0.0028 − 110 499 18 43 07.663 +00 28 01.47 11.737 +0.987 +0.639 +0.600 +0.674 +1.273 23 13 0.0031 0.0029 0.0071 0.0019 0.0017 0.0029 BD 12 2918 09 31 19.37 13 29 19.310.067+1.501+1.166+1.067+1.318+2.3851390.00250.00280.00750.00390.00220.0042 110− 502 18 43 10.111 +00− 27 42.37 12.330 +2.326 +2.326 +1.373 +1.250 +2.625 38 19 0.0031 0.0047 0.0225 4195 0.0019 0.0024 0.0041 STARS STANDARD EQUATORIAL PG0942 029D 09 45 08.637 03 05 54.45 13.683 +0.576 +0.064 +0.341 +0.329 +0.668 13 8 0.0009 0.0029 0.0054 0.0015 0.0039 0.0044 − − PG0942110 503029A 18 43 09 11 45.696 09.90 +00 2903 42 10.95 14.214.738+0.888+0.552+0.563+0.474+1.0351680.00210.00210.00650.00230.00410.0050 11.773 +0.671 +0.506 +0.373 +0.436 +0.808 26 14 0.0031 0.0020 0.0051 0.0018 0.0016 0.0022 − − PG0942110 504029B 18 43 09 11 45.712 11.574 +00 3003 04 06.57 58.11 14.022 14.105 +1.248 +0.573 +1.323 +0.014 +0.797 +0.353 +0.683 +0.341 +1.482 +0.693 5 13 2 8 0.0013 0.0022 0.0063 0.0014 0.0268 0.0043 0.0036 0.0018 0.0063 0.0036 0.0080 0.0041 − − PG0942110 506029 18 43 09 18 45.927 11.85 +00 3003 27 09.14 21.014.012 11.312 +0.5680.298 +0.0591.177 +0.3350.132 +0.3120.165 +0.6520.296 2 21 1 13 0.0021 0.0022 0.0021 0.0025 0.0064 0.0031 0.0007 0.0026 0.0042 0.0058 0.0042 0.0067 − − − − − − − PG0942110 507029C 18 43 09 19 45.126 14.386 +00 2903 26 06.00 40.28 12.440 14.950 +1.141 +0.803 +0.830 +0.338 +0.633 +0.488 +0.579 +0.395 +1.206 +0.884 2 16 1 8 0.0049 0.0024 0.0057 0.0024 0.0057 0.0049 0.0042 0.0021 0.00450.0049 0.0053 − − ··· 101110 315 290 18 43 09 22 54.132 51.298 00 0100 15 27.40 31.09 11.898 11.249 +0.708 +1.153 +0.196 +1.056 +0.418 +0.612 +0.418 +0.559 +0.836 +1.172 3 19 2 11 0.0029 0.0037 0.0006 0.0018 0.0046 0.0067 0.0023 0.0016 0.0029 0.0011 0.0035 0.0021 − − 101Figure110 316 441 100. Field, 18 1043 09′ 33on 54.607 a 52 side,.034 of +00 SA 19 10900 40 18 SF1..72 34.51 11.122 11.552 +0.556 +0.493 +0.108 +0.032Figure +0.325 +0.293 104. Field, +0.335 10+0.291′ on a +0.660 side, +0.584 of SA 110 84 SF3. 17 74 10 0.0006 0.0027 0.0005 0.0024 0.0011 0.0036 0.0005 0.0019 0.0006 0.0029 0.0009 0.0032 − 101110 L1 311 18 43 09 47 55.512 29.09 00 0000 20 21.63 42.616.501+0.757 15.505 +1.796 +1.1790.104 +1.010 +0.421 +0.864 +0.527 +1.874 +0.947 4 4 2 1 0.0180 0.0310 0.0360 0.0340 0.1255 0.0290 0.0340 0.0225 0.0830 0.0855 0.1130 0.1070 − 110 312 18 43 48.928 +00− 00 06.03 16.093 +1.319 0.788− +1.137 +1.154 +2.293 1 1 101 320 09 55 32.924 00 22 32.72 13.823 +1.052− +0.690 +0.581 +0.561 +1.141 11 7··· 0.0048 ··· 0.0103 ··· 0.0181 ··· 0.0039 ··· 0.0036 ··· 0.0045 110 450 18 43 51.474 +00− 22 58.46 11.583 +0.946 +0.683 +0.549 +0.626 +1.175 93 83 0.0006 0.0007 0.0017 0.0006 0.0007 0.0010 101 L2 09 55 34.688 00 18 50.10 15.770 +0.602 +0.082 +0.321 +0.304 +0.625 1 1 110 315 18 43 52.079 +00− 00 49.33 13.637 +2.069 +2.256 +1.206 +1.133 +2.338 8 4 0.0067··· 0.0361 ··· 0.4639 ··· 0.0032 ··· 0.0057 ··· 0.0067 ··· 101 404 09 55 40.673 00 18 22.23 13.459 +0.996 +0.697 +0.530 +0.500 +1.029 12 7 0.0040 0.0078 0.0095 0.0049 0.0032 0.0055 − 101110 324 316 18 43 09 52 55.342 56.650 +00 0100 04 23.22 15.10 14.821 9.737 +1.731 +1.161 +4.355 +1.145 +0.858 +0.591 +0.910 +0.519 +1.769 +1.109 1 60 1 47 0.0005 0.0008 0.0018 0.0006 0.0007 0.0010 − ··· ··· ··· ··· ··· ··· 101110 408 319 18 43 09 55 56.376 08.001 +00 0200 00 12.32 41.28 11.861 14.785 +1.309 +1.200 +1.076 +1.347 +0.742 +0.718 +0.700 +0.603 +1.443 +1.321 3 2 2 1 0.0110 0.0240 0.0029 0.0438 0.0035 0.0170 0.0040 0.0170 0.0017 0.0120 0.0058 0.0297 − 101 262 09 56 08.096 00 29 50.50 14.295 +0.784 +0.297 +0.440 +0.387 +0.827 4 2 0.0045 0.0160 0.0205 0.0075 0.0100 0.0035 − 101 326 09 56 08.101 00 27 10.94 14.923 +0.729 +0.227 +0.406 +0.375 +0.780 13 6 0.0078 0.0094 0.0128 0.0055 0.0111 0.0122 − 101 327 09 56 08.86 00 25 53.513.441+1.155+1.139+0.717+0.574+1.29028150.00320.00570.00980.00230.00170.0028 − 101 410 09 56 09.136 00 14 02.23 13.646 +0.546 0.063 +0.298 +0.326 +0.623 2 1 0.0085 0.0014 0.0021 0.0106 0.0035 0.0064 − − 101 413 09 56 14.009 00 11 54.86 12.583 +0.983 +0.716 +0.529 +0.497 +1.025 9 6 0.0023 0.0047 0.0103 0.0033 0.0040 0.0040 − 101 268 09 56 17.377 00 31 57.05 14.380 +1.531 +1.381 +1.040 +1.200 +2.237 11 5 0.0078 0.0199 0.0769 0.0048 0.0036 0.0045 − 101 330 09 56 20.587 00 27 22.12 13.723 +0.577 0.026 +0.346 +0.338 +0.684 28 14 0.0038 0.0038 0.0051 0.0028 0.0057 0.0064 − − 101 415 09 56 23.145 00 16 53.02 15.259 +0.577 0.008 +0.346 +0.350 +0.695 2 1 0.0028 0.0247 0.0021 0.0198 0.0134 0.0332 − − 101 270 09 56 27.023 00 35 44.15 13.711 +0.554 +0.055 +0.332 +0.306 +0.637 2 1 0.0014 0.0127 0.0049 0.0071 0.0014 − ··· 101 278 09 56 54.467 00 29 38.39 15.494 +1.041 +0.737 +0.596 +0.548 +1.144 2 1 0.0184 0.0226 0.0269 0.0198 0.0148 0.0346 − 101 L3 09 56 55.025 00 30 25.47 15.953 +0.637 0.033 +0.396 +0.395 +0.792 2 1 0.0233 0.0184 0.0707 0.0382 0.0488 0.0870 − − 101 281 09 57 05.02 00 31 43.211.576+0.812+0.415+0.453+0.412+0.86423150.00230.00130.00310.00130.00090.0013 − 101 L4 09 57 07.76 00 31 24.416.264+0.793+0.362+0.578+0.062+0.6442 10.01700.01410.00140.01910.26380.2807 − 101 L5 09 57 10.21 00 30 40.315.928+0.622+0.115+0.414+0.305+0.7202 10.01060.02830.08630.00780.01340.0212 − 101 421 09 57 16.107 00 17 18.20 13.180 +0.507 0.031 +0.327 +0.296 +0.623 2 1 0.0021 0.0021 0.0035 0.0021 0.0007 0.0014 − − 101 338 09 57 17.754 00 21 00.34 13.788 +0.634 +0.024 +0.350 +0.340 +0.691 2 1 0.0071 0.0071 0.0042 0.0021 0.0035 0.0014 Figure 102. Field, 10′ on a side, of SA− 110 SF1. Figure 105. Field, 10′ on a side, of SA 110 SF4. 101 339 09 57 18.389 00 25 01.80 14.449 +0.850 +0.501 +0.458 +0.398 +0.857 2 1 0.0099 0.0085 0.0099 0.0240 0.0042 0.0290 − 101 424 09 57 20.263 00 16 25.88 15.058 +0.764 +0.273 +0.429 +0.425 +0.855 2 1 0.0276 0.0389 0.0191 0.0226 0.0205 0.0431 − No. 5, 2009 UBVRI EQUATORIAL STANDARD STARS 4255 20LNOTVl 137 Vol. LANDOLT 4200 Table 2 (Continued)

Mean Error of the Mean Star α (J2000.0) δ (J2000.0) VBVUBVRRIVInm V BVUBVRRIVI − − − − − − − − − − (1)Figure 98. (2)Field, 10 on a side, (3) of the star G 21-15. (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) ′ Figure 103. Field, 10′ on a side, of SA 110 SF2. 109 954 17 44 15.844 00 02 16.07 12.436 +1.296 +0.956 +0.764 +0.731 +1.496 9 5 0.0093 0.0060 0.0203 0.0017 0.0027 0.0033 − 109 199 17 45 02.635 00 29 28.71 10.990 +1.739 +1.967 +1.006 +0.900 +1.904 3 2 0.0098 0.0040 0.0035 0.0035 0.0040 0.0046 − 109 231 17 45 19.964 00 25 51.60 9.333 +1.465 +1.591 +0.787 +0.705 +1.494 90 65 0.0008 0.0008 0.0023 0.0004 0.0005 0.0006 − 109 537 17 45 42.448 00 21 35.43 10.353 +0.609 +0.226 +0.376 +0.393 +0.769 76 55 0.0022 0.0010 0.0017 0.0008 0.0008 0.0013 − G21 15 18 27 13.08 +04 03 46.713.889+0.092 0.598 0.039 0.030 0.069 19 9 0.0046 0.0053 0.0067 0.0046 0.0094 0.0094 − − − − 110 229 18 40 45.662 +00 01 49.78 13.649 +1.910 +1.391 +1.198 +1.155 +2.356 30 16 0.0031 0.0091 0.0225 0.0018 0.0020 0.0026 110 230 18 40 51.489 +00 02 23.28 14.281 +1.084 +0.728 +0.624 +0.596 +1.218 21 11 0.0031 0.0050 0.0116 0.0020 0.0044 0.0050 110 232 18 40 52.340 +00 01 54.78 12.516 +0.729 +0.147 +0.439 +0.450 +0.889 28 16 0.0032 0.0028 0.0045 0.0015 0.0019 0.0025 110 233 18 40 52.709 +00 00 50.85 12.771 +1.281 +0.812 +0.773 +0.818 +1.593 22 10 0.0028 0.0034 0.0070 0.0021 0.0015 0.0021 110 239 18 41 19.795 +00 00 13.58 13.858 +0.899 +0.584 +0.541 +0.517 +1.060 1 1 ··· ··· ··· ··· ··· ··· 110 339 18 41 26.51 +00 08 25.413.607+0.988+0.776+0.563+0.468+1.0361 1 ··· ··· ··· ··· ··· ··· 110 340 18 41 28.448 +00 15 23.00 10.025 +0.308 +0.124 +0.171 +0.183 +0.354 111 92 0.0008 0.0006 0.0014 0.0004 0.0006 0.0007 110 477 18 41 43.200 +00 26 42.78 13.988 +1.345 +0.715 +0.850 +0.857 +1.707 21 11 0.0072 0.0131 0.0375 0.0031 0.0039 0.0063 110 246 18 41 50.757 +00 05 04.51 12.706 +0.586 0.129 +0.381 +0.410 +0.790 1 1 − ··· ··· ··· ··· ··· ··· 110 346 18 41 55.208 +00 09 58.39 14.757 +0.999 +0.752 +0.697 +0.646 +1.345 1 1 ··· ··· ··· ··· ··· ··· 110 349 18 42 13.409 +00 10 15.21 15.095 +1.088 +0.668 +0.503 0.059 +0.477 1 1 − ··· ··· ··· ··· ··· ··· 110 355 18 42 18.933 +00 08 24.22 11.944 +1.023 +0.504 +0.652 +0.727 +1.378 16 8 0.0027 0.0030 0.0045 0.0022 0.0022 0.0035 110 358 18 42 35.516 +00 15 01.97 14.430 +1.039 +0.418 +0.603 +0.543 +1.150 1 1 ··· ··· ··· ··· ··· ··· 110 360 18 42 40.477 +00 09 10.71 14.618 +1.197 +0.539 +0.715 +0.717 +1.432 5 2 0.0094 0.0192 0.0291 0.0085 0.0031 0.0080

110 361 18 42 45.010 +00 08 04.70 12.425 +0.632 +0.035 +0.361 +0.348 +0.709 30 17 0.0022 0.0022 0.0029 0.0018 0.0020 0.0029 2009 5, No. 110 362 18 42 48.277 +00 06 27.77 15.693 +1.333 +3.919 +0.918Table +0.885 2 +1.803 1 1 ··· ··· ··· ··· ··· ··· 110 266 18 42 48.798 +00 05 06.44 12.018 +0.889 +0.411 +0.538(Continued) +0.577 +1.111 8 3 0.0014 0.0028 0.0039 0.0014 0.0021 0.0032 Figure 100. Field, 10 on a side, of SA 109 SF1. Figure 104. Field, 10 on a side, of SA 110 SF3. 110 L1 18 42 50.187′ +00 07 12.76 16.252 +1.752 +2.953 +1.066 +0.992 +2.058′ 1 1 Mean Error of the Mean ··· ··· ··· ··· ··· ··· Star110 364 18 42 52α .(J2000.0)785 +00 07δ 54(J2000.0).89 13.615VB +1.133VU +1.095BV +0.697RR +0.585IV +1.281Inm 15 7 0.0021 V 0.0067 BVU 0.0088BV 0.0015RR 0.0026IV 0.0021I − − − − − − − − − − (1)110 157 18 42 56.472 (2)00 08 58. (3)45 13.491 (4) +2.123 (5) +1.679 (6) +1.257 (7) +1.139 (8) +2.395 (9) 7 (10) 3 (11) 0.0057 (12) 0.0257 (13) 0.1750 (14) 0.0034 (15) 0.0049 (16) 0.0057 (17) − 110 365 18 42 57.444 +00 07 23.12 13.470 +2.261 +1.895 +1.360 +1.270 +2.631 45 20 0.0027 0.0091 0.0313 0.0021 0.0022 0.0034 99 447 07 56 06.686 00 20 42.37 9.419 0.068 0.220 0.031 0.041 0.073 108 97 0.0006 0.0005 0.0008 0.0004 0.0004 0.0006 110 496 18 42 59.294 +00 31− 09.13 13.004 +1.040− +0.737− +0.607− +0.681− +1.287− 9 4 0.0027 0.0060 0.0230 0.0020 0.0023 0.0043 100 241 08 52 34.049 00 39 48.96 10.140 +0.157 +0.106 +0.078 +0.085 +0.162 67 57 0.0006 0.0005 0.0009 0.0004 0.0004 0.0004 110 273 18 42 59.542 +00 02− 23.92 14.686 +2.527 +1.000 +1.509 +1.345 +2.856 5 2 0.0161 0.0783 1.3416 0.0040 0.0103 0.0107 100110 162 497 18 43 02 08.506 53 14.418 +00 3000 56 43.79 30.35 14.196 9.150 +1.052 +1.276 +0.380 +1.495 +0.606 +0.649 +0.597 +0.552 +1.203 +1.202 5 86 2 67 0.0054 0.0009 0.0063 0.0008 0.0143 0.0012 0.00670.0004 0.0006 0.0045 0.0006 0.0063 − 100110 267 280 18 43 06 08.960 53 17.212 00 0300 41 41.52 29.35 12.996 13.027 +2.151 +0.485 +2.1330.062 +1.235 +0.307 +1.148 +0.302 +2.384 +0.608 25 3 12 3 0.0034 0.0069 0.0144 0.0023 0.09060.0133 0.0075 0.0018 0.0040 0.0030 0.0040 0.0036 − − − 100110 269 499 18 43 07 08.663 53 18.464 +00 2800 01 41.47 09.81 11.737 12.350 +0.987 +0.547 +0.6390.040 +0.600 +0.335 +0.674 +0.331 +1.273 +0.666 23 3 13 3 0.0031 0.0035 0.0029 0.0029 0.00710.0150 0.0035 0.0019 0.0029 0.0017 0.0017 0.0029 − − 100110 280 502 18 43 10 08.111 53 35.477 +00 2700 42 36.37 41.16 12.330 11.799 +2.326 +0.493 +2.3260.001 +1.373 +0.295 +1.250 +0.291 +2.625 +0.588 38 72 19 61 0.0031 0.0007 0.0047 0.0007 0.02250.0010 0.0006 0.0019 0.0006 0.0024 0.0009 0.0041 − − 100 394 08 53 54.515 00 32 22.08 11.384 +1.317 +1.457 +0.705 +0.636 +1.341 9 5 0.0080 0.0040 0.0087 0.0023 0.0027 0.0030 110 503 18 43 11.696 +00 29− 42.95 11.773 +0.671 +0.506 +0.373 +0.436 +0.808 26 14 0.0031 0.0020 0.0051 0.0018 0.0016 0.0022 PG0918+029D 09 21 21.936 +02 47 28.28 12.272 +1.044 +0.821 +0.575 +0.535 +1.108 19 11 0.0021 0.0030 0.0071 0.0016 0.0018 0.0018 110 504 18 43 11.712 +00 30 04.57 14.022 +1.248 +1.323 +0.797 +0.683 +1.482 5 2 0.0013 0.0063 0.0268 0.0036 0.0063 0.0080 PG0918+029 09 21 28.217 +02 46 02.27 13.327 0.271 1.081 0.129 0.159 0.288 45 27 0.0024 0.0024 0.0030 0.0019 0.0055 0.0063 110 506 18 43 18.927 +00 30 27.14 11.312 +0.568− +0.059− +0.335− +0.312− +0.652− 2 1 0.0021 0.0021 0.0064 0.0007 0.0042 0.0042 PG0918+029B 09 21 32.924 +02 47 59.08 13.963 +0.765 +0.366 +0.417 +0.370 +0.787 20 11 0.0034 0.0072 0.0159 0.0025 0.0045 0.0056 110 507 18 43 19.126 +00 29 26.00 12.440 +1.141 +0.830 +0.633 +0.579 +1.206 2 1 0.0049 0.0057 0.0057 0.0042 0.0049 PG0918+029A 09 21 35.107 +02 46 19.43 14.490 +0.536 0.032 +0.325 +0.336 +0.661 29 14 0.0033 0.0058 0.0095 0.0039 0.0076··· 0.0085 UBVRI 110 290 18 43 22.132 00 01 15.40 11.898 +0.708 +0.196− +0.418 +0.418 +0.836 313 2 0.0029 0.0006 0.0046 0.0023 0.0029 0.0035 PG0918+029C 09 21 42.306− +02 46 37.07 13.537 +0.631 +0.087 +0.367 +0.357 +0.722 21 10 0.0020 0.0028 0.0048 0.0015 0.0022 0.0028 110 441 18 43 33.607 +00 19 40.72 11.122 +0.556 +0.108 +0.325 +0.335 +0.660 84 74 0.0006 0.0005 0.0011 0.0005 0.0006 0.0009 BD110 31112 2918 18 43 4709. 31512 19.37 00 0013 20 29.63 19.310.067+1.501+1.166+1.067+1.318+2.3851390.00250.00280.00750.00390.00220.0042 15.505 +1.796 +1.179 +1.010 +0.864 +1.874 4 2 0.0180 0.0360 0.1255 0.0340 0.0830 0.1130 − − − 4195 STARS STANDARD EQUATORIAL PG0942110 312029D 18 43 4809. 45928 08.637 +00 0003 06 05.03 54.45 16.093 13.683 +1.319 +0.5760.788 +0.064 +1.137 +0.341 +1.154 +0.329 +2.293 +0.668 1 13 1 8 0.0009 0.0029 0.0054 0.0015 0.0039 0.0044 − − − ··· ··· ··· ··· ··· ··· PG0942110 450029A 18 43 5109. 45474 09.90 +00 2203 58 10.46 14.214.738+0.888+0.552+0.563+0.474+1.0351680.00210.00210.00650.00230.00410.0050 11.583 +0.946 +0.683 +0.549 +0.626 +1.175 93 83 0.0006 0.0007 0.0017 0.0006 0.0007 0.0010 − − PG0942110 315029B 18 43 5209. 45079 11.574 +00 0003 49 06.33 58.11 13.637 14.105 +2.069 +0.573 +2.256 +0.014 +1.206 +0.353 +1.133 +0.341 +2.338 +0.693 8 13 4 8 0.0067 0.0022 0.0361 0.0014 0.4639 0.0043 0.00320.0018 0.0036 0.0057 0.0041 0.0067 − − PG0942 029 09 45 11.85 03 09 21.014.012 0.298 1.177 0.132 0.165 0.296 21 13 0.0022 0.0025 0.0031 0.0026 0.0058 0.0067 110 316− 18 43 52.342 +00 01− 04.22 14.821 +1.731− +4.355− +0.858− +0.910− +1.769− 1 1 PG0942 029C 09 45 14.386 03 06 40.28 14.950 +0.803 +0.338 +0.488 +0.395 +0.884 16 8 0.0024··· 0.0024 ··· 0.0049 ··· 0.0021 ··· 0.0045 ··· 0.0053 ··· 110 319− 18 43 55.376 +00 02− 00.32 11.861 +1.309 +1.076 +0.742 +0.700 +1.443 3 2 0.0110 0.0029 0.0035 0.0040 0.0017 0.0058 101 315 09 54 51.298 00 27 31.09 11.249 +1.153 +1.056 +0.612 +0.559 +1.172 19 11 0.0037 0.0018 0.0067 0.0016 0.0011 0.0021 − 101 316Figure 102. 09Field, 54 52 10.034′ on a side,00 of 18 SA 34 110.51 SF1. 11.552 +0.493 +0.032 +0.293Figure 105. +0.291Field, 10′ +0.584on a side, of 17 SA 110 10SF4. 0.0027 0.0024 0.0036 0.0019 0.0029 0.0032 − 101 L1 09 55 29.09 00 21 42.616.501+0.757 0.104 +0.421 +0.527 +0.947 4 1 0.0310 0.0340 0.0290 0.0225 0.0855 0.1070 − − 101 320 09 55 32.924 00 22 32.72 13.823 +1.052 +0.690 +0.581 +0.561 +1.141 11 7 0.0048 0.0103 0.0181 0.0039 0.0036 0.0045 − 101 L2 09 55 34.688 00 18 50.10 15.770 +0.602 +0.082 +0.321 +0.304 +0.625 1 1 − ··· ··· ··· ··· ··· ··· 101 404 09 55 40.673 00 18 22.23 13.459 +0.996 +0.697 +0.530 +0.500 +1.029 12 7 0.0040 0.0078 0.0095 0.0049 0.0032 0.0055 − 101 324 09 55 56.650 00 23 15.10 9.737 +1.161 +1.145 +0.591 +0.519 +1.109 60 47 0.0005 0.0008 0.0018 0.0006 0.0007 0.0010 − 101 408 09 56 08.001 00 12 41.28 14.785 +1.200 +1.347 +0.718 +0.603 +1.321 2 1 0.0240 0.0438 0.0170 0.0170 0.0120 0.0297 − 101 262 09 56 08.096 00 29 50.50 14.295 +0.784 +0.297 +0.440 +0.387 +0.827 4 2 0.0045 0.0160 0.0205 0.0075 0.0100 0.0035 − 101 326 09 56 08.101 00 27 10.94 14.923 +0.729 +0.227 +0.406 +0.375 +0.780 13 6 0.0078 0.0094 0.0128 0.0055 0.0111 0.0122 − 101 327 09 56 08.86 00 25 53.513.441+1.155+1.139+0.717+0.574+1.29028150.00320.00570.00980.00230.00170.0028 − 101 410 09 56 09.136 00 14 02.23 13.646 +0.546 0.063 +0.298 +0.326 +0.623 2 1 0.0085 0.0014 0.0021 0.0106 0.0035 0.0064 − − 101 413 09 56 14.009 00 11 54.86 12.583 +0.983 +0.716 +0.529 +0.497 +1.025 9 6 0.0023 0.0047 0.0103 0.0033 0.0040 0.0040 − 101 268 09 56 17.377 00 31 57.05 14.380 +1.531 +1.381 +1.040 +1.200 +2.237 11 5 0.0078 0.0199 0.0769 0.0048 0.0036 0.0045 − 101 330 09 56 20.587 00 27 22.12 13.723 +0.577 0.026 +0.346 +0.338 +0.684 28 14 0.0038 0.0038 0.0051 0.0028 0.0057 0.0064 − − 101 415 09 56 23.145 00 16 53.02 15.259 +0.577 0.008 +0.346 +0.350 +0.695 2 1 0.0028 0.0247 0.0021 0.0198 0.0134 0.0332 − − 101 270 09 56 27.023 00 35 44.15 13.711 +0.554 +0.055 +0.332 +0.306 +0.637 2 1 0.0014 0.0127 0.0049 0.0071 0.0014 − ··· 101 278 09 56 54.467 00 29 38.39 15.494 +1.041 +0.737 +0.596 +0.548 +1.144 2 1 0.0184 0.0226 0.0269 0.0198 0.0148 0.0346 − 101 L3 09 56 55.025 00 30 25.47 15.953 +0.637 0.033 +0.396 +0.395 +0.792 2 1 0.0233 0.0184 0.0707 0.0382 0.0488 0.0870 − − 101 281 09 57 05.02 00 31 43.211.576+0.812+0.415+0.453+0.412+0.86423150.00230.00130.00310.00130.00090.0013 − 101 L4 09 57 07.76 00 31 24.416.264+0.793+0.362+0.578+0.062+0.6442 10.01700.01410.00140.01910.26380.2807 − 101 L5 09 57 10.21 00 30 40.315.928+0.622+0.115+0.414+0.305+0.7202 10.01060.02830.08630.00780.01340.0212 − 101 421 09 57 16.107 00 17 18.20 13.180 +0.507 0.031 +0.327 +0.296 +0.623 2 1 0.0021 0.0021 0.0035 0.0021 0.0007 0.0014 − − 101 338 09 57 17.754 00 21 00.34 13.788 +0.634 +0.024 +0.350 +0.340 +0.691 2 1 0.0071 0.0071 0.0042 0.0021 0.0035 0.0014 − 101 339 09 57 18.389 00 25 01.80 14.449 +0.850 +0.501 +0.458 +0.398 +0.857 2 1 0.0099 0.0085 0.0099 0.0240 0.0042 0.0290 − 101 424 09 57 20.263 00 16 25.88 15.058 +0.764 +0.273 +0.429 +0.425 +0.855 2 1 0.0276 0.0389 0.0191 0.0226 0.0205 0.0431 − o ,2009 5, No. Table 2 (Continued)

Mean Error of the Mean Star α (J2000.0) δ (J2000.0) VBVUBVRRIVInm V BVUBVRRIVI − − − − − − − − − − (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) 104 423 12 41 35.959 00 31 11.26 15.602 +0.630 +0.050 +0.262 +0.559 +0.818 2 1 0.0247 0.0389 0.0269 0.0361 0.1167 0.1520 − 104 428 12 41 41.284 00 26 26.13 12.630 +0.985 +0.748 +0.534 +0.497 +1.032 25 16 0.0038 0.0028 0.0044 0.0024 0.0018 0.0036 − 104 L1 12 41 49.42 00 21 01.214.608+0.630+0.064+0.374+0.364+0.7392 10.00070.00140.01270.01130.01630.0042 − 104 430 12 41 50.259 00 25 52.44 13.858 +0.652 +0.131 +0.364 +0.363 +0.727 15 8 0.0052 0.0062 0.0085 0.0046 0.0041 0.0065 − 104 325 12 42 02.210 00 41 35.93 15.581 +0.694 +0.051 +0.345 +0.307 +0.652 2 1 0.0163 0.0431 0.0219 0.0255 0.0148 0.0403 − 104No. 330 5, 2009 12 42 11.418 00 40UBVRI 41.44EQUATORIAL 15.296 STANDARD +0.594 STARS0.028 +0.369 +0.371 +0.739 4247 15 6 0.0103 0.0276 0.0155 0.0124 0.0214 0.0225 − − 104 440 12 42 14.30 00 24 46.315.114+0.440 0.227 +0.289 +0.317 +0.605 11 5 0.0081 0.0084 0.0103 0.0069 0.0232 0.0262 − − 104 237 12 42 16.874 00 51 18.21 15.395 +1.088 +0.918 +0.647 +0.628 +1.274 1 1 − ··· ··· ··· ··· ··· ··· 104 L2 12 42 19.621 00 34 23.90 16.048 +0.650 0.172 +0.344 +0.323 +0.667 4 2 0.0190 0.0265 0.0450 0.0295 0.0755 0.1000 − − 104 443 12 42 19.813 00 25 21.21 15.372 +1.331 +1.280 +0.817 +0.778 +1.595 3 2 0.0087 0.0023 0.1120 0.0139 0.0104 0.0202

− UBVRI 104 444 12 42 20.021 00 32 28.17 13.477 +0.512 0.070 +0.313 +0.331 +0.643 2 1 0.0014 0.0099 0.0085 0.0021 0.0014 0.0007 − − 104 334 12 42 20.425 00 40 28.35 13.484 +0.518 0.067 +0.323 +0.331 +0.653 24 16 0.0047 0.0031 0.0039 0.0029 0.0031 0.0047 − − 104 335 12 42 20.894 00 33 08.19 11.665 +0.622 +0.145 +0.357 +0.334 +0.691 4 2 0.0095 0.0010 0.0020 0.0035 0.0045 0.0070 − 104 239 12 42 22.91 00 46 35.613.936+1.356+1.291+0.868+0.805+1.6757 30.00600.00870.02310.00450.00300.0057 4197 STARS STANDARD EQUATORIAL − 104 336 12 42 24.64 00 39 58.014.404+0.830+0.495+0.461+0.403+0.8651460.00670.00720.01230.00590.00990.0104 − 104 338 12 42 30.142 00 38 32.39 16.059 +0.591 0.082 +0.348 +0.372 +0.719 8 5 0.0078 0.0219 0.0368 0.0088 0.0209 0.0170 − − 104 339 12 42 33.298 00 41 39.88 15.459 +0.832 +0.709 +0.476 +0.374 +0.849 1 1 − ··· ··· ··· ··· ··· ··· 104 244 12 42 34.235 00 45 47.06 16.011 +0.590 0.152 +0.338 +0.489 +0.825 2 2 0.0092 0.0057 0.0113 0.0035 0.0269 0.0290 − − 104 455 12 42 52.116 00 24 17.43 15.105 +0.581 0.024 +0.360 +0.357 +0.716 13 7 0.0067 0.0144 0.0122 0.0053 0.0089 0.0122 − − 104 456 12 42 53.505 00 32 00.91 12.362 +0.622 +0.135 +0.357 +0.337 +0.694 4 2 0.0025 0.0025 0.0045 0.0035 0.0065 0.0080 − 104 457 12 42 54.195 00 28 48.68 16.048 +0.753 +0.522 +0.484 +0.490 +0.974 9 4 0.0107 0.0187 0.0770 0.0183 0.0370 0.0213 − 137 Vol. LANDOLT 4198 104 460 12 43 02.86 00 28 19.012.895+1.281+1.246+0.813+0.695+1.51136280.00190.00140.00260.00060.00100.0015Table 2 − 104 461 12 43 06.031 00 32 18.01 9.705 +0.476 0.035 +0.288(Continued) +0.289 +0.579 112 90 0.0005 0.0006 0.0009 0.0004 0.0005 0.0005 − − 104 350 12 43 14.204 00 33 20.54 13.634 +0.673 +0.165 +0.383 +0.353 +0.736 14 7 0.0043 0.0035 0.0056 0.0032 0.0045 0.0061 − Mean Error of the Mean 104Star 470 12α (J2000.0) 43 22.314 δ00(J2000.0) 29 52.83 14.310VB +0.732VU +0.101BV +0.295RR +0.356IV +0.649Inm 3 1 0.0121 V 0.0092 BVU 0.0202BV 0.0133RR 0.0035IV 0.0150I − − − − − − − − − − − 104(1) 364 12 43 (2) 45.986 00 34 (3) 31.63 15.799 (4) +0.601 (5)0.131 (6) +0.314 (7) +0.397 (8) +0.712 (9) (10) 2 (11) 1 0.0156 (12) 0.0488 (13) 0.0559 (14) 0.0085 (15) 0.0410 (16) 0.0495 (17)

− − 2009 5, No. 104 366 12 43 53.17 00 34 45.412.908+0.870+0.424+0.517+0.464+0.9821 1 HD 121968 13 58 51.167 −02 54 52.33 10.256 0.185 0.915 0.074 Table0.100 2 0.173 90 75 0.0006··· 0.0006 ··· 0.0010 ··· 0.0004 ··· 0.0005 ··· 0.0006 ··· 104 479 12 43 55.279 −00 32 49.39 16.087− +1.271− +0.673− +0.657− +0.607 +1.264− 2 1 0.0339 0.0276 0.3995 0.0028 0.0035 0.0071 PG1407 013B 14 10 24.181 −01 27 16.52 12.471 +0.970 +0.665 +0.537(Continued) +0.505 +1.037 17 10 0.0013 0.0016 0.0020 0.0012 0.0012 0.0016 104 367− 12 43 58.453 −00 33 33.87 15.844 +0.639 0.126 +0.382 +0.296 +0.679 2 1 0.0255 0.0212 0.0156 0.0177 0.0042 0.0226 PG1407Figure 75.013Field, 15′ 14on a10 side, 25. of915 the sequence−01 in 30 the 16 vicinity.61 of the13.758 star Figure0.259 77. Field,−1.133 15′ on a side, of0.119 the sequence0.151 in the vicinity0.272 of the star 21 12 0.0012 0.0017 0.0033 0.0015 0.0033 0.0043 104PG1323 484− 086. 12 44 20.526 −00 30 54.29 14.406−PG1525 +1.024071. − +0.732− +0.514− +0.486 +1.000− 2 1 0.0071 0.0184Mean 0.0134 Error of 0.0057 the Mean 0.0064 0.0120 PG1407 −013C 14 10 28.013 −01 25 03.05 12.462 +0.805− +0.298 +0.464 +0.448 +0.914 17 10 0.0015 0.0013 0.0031 0.0010 0.0016 0.0014 104 485− 12 44 23.810 −00 30 16.38 15.017 +0.838 +0.493 +0.478 +0.488 +0.967 2 1 0.0113 0.0339 0.0226 0.0014 0.0113 0.0099 StarPG1407 013A 14α (J2000.0) 10 29.547 −δ01(J2000.0) 29 10.18 14.661VB +1.151VU +1.049BV +0.617RR +0.569IV +1.178Inm 21 10 0.0023 V 0.0030 BVU 0.0116BV 0.0018RR 0.0018IV 0.0034I 104 490− 12 44 33.454 −00 25 51.78 12.572 +0.535− +0.048− +0.318− +0.312− +0.630− 12 8 0.0029 0.0032− 0.0052− 0.0023− 0.0023− 0.0026− (1)PG1407 013D 14 10 (2) 34.083 −01 27 (3) 14.00 14.872 (4) +0.891 (5) +0.420 (6) +0.496 (7) +0.472 (8) +0.967 (9) 14 (10) 9 (11) 0.0024 (12) 0.0026 (13) 0.0104 (14) 0.0020 (15) 0.0058 (16) 0.0063 (17) 104 598− 12 45 16.779 −00 16 40.47 11.478 +1.108 +1.051 +0.667 +0.545 +1.214 88 76 0.0010 0.0008 0.0023 0.0004 0.0004 0.0005 PG1407 013E 14 10 35.721 −01 26 31.42 15.182 +0.883 +0.600 +0.496 +0.417 +0.915 9 6 0.0036 0.0042 0.0144 0.0044 0.0068 0.0074 99PG1323 447086 07 13 56 25 0639..686468 0008 20 49 42 19..3712 13.481 9.419 0.0680.140 0.2200.681 0.0480.031 0.0780.041 0.1270.073 39108 18 97 0.0019 0.0006 0.0022 0.0005 0.0026 0.0008 0.0018 0.0004 0.0045 0.0004 0.0045 0.0006 − −− − − − − − 100106 241 1024− 08 14 52 40 34 06..049997− +0000 39 01 48 45..9611 10.140 11.599− +0.332+0.157− +0.085 +0.106− +0.196 +0.078− +0.195 +0.085− +0.390 +0.162 35 67 27 57 0.0051 0.0006 0.0022 0.0005 0.0029 0.0009 0.0019 0.0004 0.0014 0.0004 0.0029 0.0004 PG1323106 700086A 1314 2540 4950.722944 − 0800 5023 2336.5382 13.591 9.786 +0.393+1.364 +1.5800.019 +0.252+0.730 +0.252+0.643 +0.506+1.374 20 88 12 77 0.0257 0.0008 0.0022 0.0006 0.0045 0.0014 0.0027 0.0005 0.0047 0.0006 0.0060 0.0008 − − − 100PG1323106 162 575086C 08 1314 53 2541 1450 38..418222499 000800 43 4826 30 3801..359482 14.003 9.150 9.341 +0.707+1.306+1.276 +0.245+1.485 +1.495 +0.395 +0.676 +0.649 +0.363 +0.587 +0.552 +0.759 +1.268 +1.202 26 39 86 13 30 67 0.0031 0.0007 0.0009 0.0027 0.0007 0.0008 0.0076 0.0027 0.0012 0.0024 0.0005 0.0004 0.0041 0.0005 0.0006 0.0049 0.0006 0.0006 − −− 100PG1323 267086B 08 13 53 25 1750..212651 0008 41 50 29 55..3510 13.027 13.406 +0.761+0.485 +0.2650.062 +0.426 +0.307 +0.407 +0.302 +0.833 +0.608 23 3 13 3 0.0019 0.0069 0.0029 0.0023 0.0042 0.0133 0.0023 0.0075 0.0023 0.0040 0.0031 0.0040 106 485− 14 44 14.083 −−00 37 06.69 9.477 +0.378 −0.052 +0.233 +0.236 +0.468 47 36 0.0009 0.0007 0.0010 0.0004 0.0004 0.0006 100PG1323 269086D 08 13 53 26 1805..464252 −0008 41 50 09 36..8119 12.350 12.080 +0.587+0.547 − +0.0050.040 +0.346 +0.335 +0.335 +0.331 +0.684 +0.666 15 3 6 3 0.0023 0.0035 0.0018 0.0029 0.0036 0.0150 0.0013 0.0035 0.0026 0.0029 0.0031 0.0017 PG1514+034− 15 17 14.269−− +03 10 27.92 13.997 0.009 −0.955 +0.087 +0.126 +0.212 6 3 0.0078 0.0082 0.0102 0.0029 0.0065 0.0073 100G14 280 55 08 13 53 28 3521..477082 0002 36 21 41 37..1607 11.799 11.336− +1.491+0.493 − +1.1570.001 +1.078 +0.295 +1.388 +0.291 +2.462 +0.588 5 72 2 61 0.0058 0.0007 0.0049 0.0007 0.0076 0.0010 0.0067 0.0006 0.0013 0.0006 0.0063 0.0009 PG1525 071 15 28 11.57 −−07 16 32.715.046 0.211 −1.177 0.068 +0.012 0.151 20 13 0.0027 0.0005 0.0027 0.0020 0.0020 0.0071 100105 394 505− 08 13 53 35 5424..515773 −0000 32 23 22 20..0874 11.384 10.270− +1.422+1.317− +1.218 +1.457− +0.910 +0.705 +0.861 +0.636 +1.771− +1.341 6 9 3 5 0.0061 0.0080 0.0102 0.0040 0.0053 0.0087 0.0053 0.0023 0.0033 0.0027 0.0069 0.0030 PG1525 071D 15 28 12.00 −−07 16 39.116.300+0.393+0.224+0.405+0.343+0.7561580.00210.07140.03160.01080.01960.0085 PG0918+029D105 437− 09 13 21 37 2116..936748 − +0200 47 37 2856..2833 12.272 12.535 +0.248+1.044 +0.067 +0.821 +0.136 +0.575 +0.143 +0.535 +0.279 +1.108 7 19 3 11 0.0060 0.0021 0.0038 0.0030 0.0094 0.0071 0.0053 0.0016 0.0026 0.0018 0.0076 0.0018 PG1525 071A 15 28 13.416 −07 16 01.03 13.506 +0.773 +0.282 +0.437 +0.421 +0.862 15 8 0.0008 0.0015 0.0019 0.0006 0.0024 0.0026 PG0918+029105 815− 09 13 21 40 2802..217492 − +0200 46 02 0218..2776 13.327 11.451 +0.3810.271 1.0810.247 +0.2670.129 +0.2920.159 +0.5590.288 61 45 51 27 0.0008 0.0024 0.0007 0.0024 0.0010 0.0030 0.0005 0.0019 0.0005 0.0055 0.0006 0.0063 PG1525 071B 15 28 14.39 −07 16 13.216.392+0.729+0.141+0.450+0.387+0.9061780.00390.00430.00970.00370.00660.0066− − − − − PG0918+029BBD +2 2711− 09 13 21 42 3219..924004− +02 +01 47 30 5918..0868 13.963 10.369 +0.7650.163 +0.3660.699 +0.4170.072 +0.3700.095 +0.7870.168 94 20 78 11 0.0007 0.0034 0.0006 0.0072 0.0011 0.0159 0.0005 0.0025 0.0006 0.0045 0.0008 0.0056 PG1525 071C 15 28 16.502 07 14 30.36 13.519− +1.116− +1.073− +0.593− +0.509− +1.096 16 9 0.0007 0.0028 0.0052 0.0010 0.0015 0.0012 PG0918+029A32376437− 09 13 21 42 3523..107215− +02 +01 46 30 1925..4371 14.490 10.584 +0.499+0.536 +0.0050.032 +0.304 +0.325 +0.301 +0.336 +0.606 +0.661 10 29 8 14 0.0016 0.0033 0.0016 0.0058 0.0028 0.0095 0.0006 0.0039 0.0009 0.0076 0.0016 0.0085 UBVRI PG1528+062B 15 30 39.542 +06 01 12.98 11.989 +0.593− +0.005 +0.364 +0.344 +0.711 114 1 PG0918+029C 09 21 42.306 +02 46 37.07 13.537 +0.631 +0.087 +0.367 +0.357 +0.722 21 10 0.0020··· ···0.0028 ··· 0.0048 ··· 0.0015 ··· 0.0022 ··· 0.0028 PG1528+062A 15 30 49.092 +06 01 24.09 15.553 +0.830 +0.356 +0.433 +0.389 +0.824 1 1 ··· ··· ··· ··· ··· ··· BDPG1528+06212 2918 09 15 31 30 19 49..3793 +0613 29 00 19 56..310.067+1.501+1.166+1.067+1.318+2.3851390.00250.00280.00750.00390.00220.0042214.767 0.252 1.091 0.111 0.182 0.296 1 1 − − − − − − − ··· ··· ··· 4195 ··· ··· ··· STARS STANDARD EQUATORIAL PG0942 029D 09 45 08.637 03 05 54.45 13.683 +0.576 +0.064 +0.341 +0.329 +0.668 13 8 0.0009 0.0029 0.0054 0.0015 0.0039 0.0044 PG1528+062C− 15 30 55.616− +06 00 09.59 13.477 +0.644 +0.074 +0.357 +0.340 +0.699 1 1 PG0942 029A 09 45 09.90 03 10 14.214.738+0.888+0.552+0.563+0.474+1.0351680.00210.00210.00650.00230.00410.0050··· ··· ··· ··· ··· ··· PG1530+057A− 15 33 10.224− +05 33 42.93 13.711 +0.829 +0.414 +0.473 +0.412 +0.886 1 1 PG0942 029B 09 45 11.574 03 06 58.11 14.105 +0.573 +0.014 +0.353 +0.341 +0.693 13 8 0.0022··· ···0.0014 ··· 0.0043 ··· 0.0018 ··· 0.0036 ··· 0.0041 PG1530+057− 15 33 10.737− +05 32 26.88 14.211 +0.151 0.789 +0.162 +0.036 +0.199 1 1 PG0942 029 09 45 11.85 03 09 21.014.012 0.298 −1.177 0.132 0.165 0.296 21 13 0.0022··· 0.0025 ··· 0.0031 ··· 0.0026 ··· 0.0058··· ···0.0067 PG1530+057B− 15 33 17.446− +05 33 46.29 12.842− +0.745− +0.325− +0.423− +0.376− +0.799 1 1 PG0942 029C 09 45 14.386 03 06 40.28 14.950 +0.803 +0.338 +0.488 +0.395 +0.884 16 8 0.0024··· ···0.0024 ··· 0.0049 ··· 0.0021 ··· 0.0045 ··· 0.0053 107Figure 544− 76. Field, 15′ 15on a36 side, 48. of097 the sequence− 00 in 15 the 07 vicinity.07 of the 9.036 star Figure +0.399 78. Field, +0.156 15′ on a side, +0.232 of the sequence +0.227 in the vicinity +0.458 of the star 54 39 0.0010 0.0006 0.0011 0.0006 0.0006 0.0008 101PG1407 315013. 09 54 51.298 −00 27 31.09 11.249PG1528+062. +1.153 +1.056 +0.612 +0.559 +1.172 19 11 0.0037 0.0018 0.0067 0.0016 0.0011 0.0021 107 970− 15 37 25.830− +00 18 33.82 10.939 +1.596 +1.750 +1.142 +1.435 +2.574 57 47 0.0074 0.0017 0.0061 0.0020 0.0033 0.0040 101 316 09 54 52.034 00 18 34.51 11.552 +0.493 +0.032 +0.293 +0.291 +0.584 17 10 0.0027 0.0024 0.0036 0.0019 0.0029 0.0032 107 568 15 37 52.713 − 00 17 17.51 13.054 +1.149 +0.862 +0.625 +0.595 +1.217 15 7 0.0015 0.0028 0.0039 0.0021 0.0028 0.0028 101 L1 09 55 29.09 −00 21 42.616.501+0.757 0.104 +0.421 +0.527 +0.947 4 1 0.0310 0.0340 0.0290 0.0225 0.0855 0.1070 107 1006 15 38 33.353− +00 14 19.11 11.713 +0.766− +0.278 +0.442 +0.420 +0.863 81 72 0.0006 0.0009 0.0018 0.0005 0.0007 0.0008 101107 320 347 09 15 55 38 32 35..924770 0000 22 35 32 57..7269 13.823 9.446 +1.294+1.052 +1.302 +0.690 +0.712 +0.581 +0.652 +0.561 +1.365 +1.141 33 11 26 7 0.0011 0.0048 0.0009 0.0103 0.0015 0.0181 0.0007 0.0039 0.0007 0.0036 0.0011 0.0045 −− 101107 L2 720 09 15 55 38 34 36..688978 0000 18 02 50 24..1092 15.770 13.121 +0.599+0.602 +0.088 +0.082 +0.374 +0.321 +0.355 +0.304 +0.731 +0.625 2 1 1 1 0.0057 0.0028 0.0106 0.0099 0.0028 0.0078 −− ··· ··· ··· ··· ··· ··· 101 404 09 55 40.673 00 18 22.23 13.459 +0.996 +0.697 +0.530 +0.500 +1.029 12 7 0.0040 0.0078 0.0095 0.0049 0.0032 0.0055 107 456 15 38 42.735 − 00 19 47.02 12.919 +0.921 +0.589 +0.537 +0.478 +1.015 20 10 0.0020 0.0029 0.0045 0.0020 0.0025 0.0036 − 101107 324 351 09 15 55 38 56 45..650760 0000 23 32 15 06..1030 12.342 9.737 +0.562+1.161 +1.1450.005 +0.351 +0.591 +0.358 +0.519 +0.708 +1.109 25 60 14 47 0.0020 0.0005 0.0024 0.0008 0.0040 0.0018 0.0016 0.0006 0.0022 0.0007 0.0026 0.0010 −− − 101107 408 457 09 15 56 38 08 46..001763 0000 12 20 41 15..2817 14.785 14.910 +0.792+1.200 +0.350 +1.347 +0.494 +0.718 +0.469 +0.603 +0.964 +1.321 2 2 1 1 0.0021 0.0240 0.0035 0.0438 0.0099 0.0170 0.0028 0.0170 0.0064 0.0120 0.0092 0.0297 −− 101107 262 458 09 15 56 38 08 50..096219 0000 29 24 50 26..5045 14.295 11.676 +1.214+0.784 +1.189 +0.297 +0.667 +0.440 +0.602 +0.387 +1.274 +0.827 2 4 1 2 0.0042 0.0045 0.0057 0.0160 0.0049 0.0205 0.0028 0.0075 0.0007 0.0100 0.0035 0.0035 −− 101107 326 592 09 15 56 38 08 50..101382 0000 27 17 10 09..9417 14.923 11.847 +1.318+0.729 +1.380 +0.227 +0.709 +0.406 +0.647 +0.375 +1.357 +0.780 9 13 5 6 0.0033 0.0078 0.0047 0.0094 0.0133 0.0128 0.0013 0.0055 0.0023 0.0111 0.0020 0.0122 −− 101107 327 459 09 15 56 38 08 50..86812 0000 25 22 53 33..513.441+1.155+1.139+0.717+0.574+1.29028150.00320.00570.00980.00230.00170.002877 12.284 +0.900 +0.427 +0.525 +0.517 +1.045 2 1 0.0014 0.0106 0.0099 0.0028 0.0007 0.0035 −− 101107 410 212 09 15 56 38 09 56..136067 0000 14 45 02 31..2371 13.646 13.383 +0.683+0.546 +0.1350.063 +0.404+0.298 +0.411 +0.326 +0.818 +0.623 2 2 1 1 0.0064 0.0085 0.0106 0.0014 0.0198 0.0021 0.0071 0.0106 0.0085 0.0035 0.0148 0.0064 −− − 101107 413 215 09 15 56 38 14 57..009650 0000 11 43 54 06..8659 12.583 16.046 +0.115+0.983 +0.7160.082 +0.5290.032 +0.4970.475 +1.0250.511 3 9 2 6 0.0266 0.0023 0.0312 0.0047 0.0092 0.0103 0.0935 0.0033 0.2991 0.0040 0.3943 0.0040 −− − − − − 101107 268 213 09 15 56 38 17 57..377671 0000 31 44 57 15..0506 14.380 14.262 +0.802+1.531 +0.261 +1.381 +0.531 +1.040 +0.509 +1.200 +1.038 +2.237 1 11 1 5 0.0078 0.0199 0.0769 0.0048 0.0036 0.0045 −− ··· ··· ··· ··· ··· ··· 101107 330 357 09 15 56 39 20 05..587469 0000 27 39 22 12..1216 13.723 14.418 +0.675+0.577 +0.0250.026 +0.416+0.346 +0.421 +0.338 +0.840 +0.684 2 28 1 14 0.00380.0035 0.0038 0.0057 0.0051 0.0120 0.0028 0.0233 0.0057 0.0113 0.0064 −− − ··· 101 415 09 56 23.145 00 16 53.02 15.259 +0.577 0.008 +0.346 +0.350 +0.695 2 1 0.0028 0.0247 0.0021 0.0198 0.0134 0.0332 107 359 15 39 09.04 − 00 35 38.612.797+0.580−0.124 +0.379 +0.381 +0.759 6 3 0.0049 0.0069 0.0118 0.0029 0.0033 0.0053 101 270 09 56 27.023 −00 35 44.15 13.711 +0.554− +0.055 +0.332 +0.306 +0.637 2 1 0.0014 0.0127 0.0049 0.0071 0.0014 107 599 15 39 09.457 − 00 14 28.74 14.675 +0.698 +0.243 +0.433 +0.438 +0.869 17 7 0.0082··· 0.0121 0.0061 0.0053 0.0121 0.0155 101 278 09 56 54.467 −00 29 38.39 15.494 +1.041 +0.737 +0.596 +0.548 +1.144 2 1 0.0184 0.0226 0.0269 0.0198 0.0148 0.0346 107 600 15 39 10.065 − 00 15 51.15 14.884 +0.503 +0.049 +0.339 +0.361 +0.700 9 4 0.0170 0.0130 0.0227 0.0097 0.0147 0.0203 101 L3 09 56 55.025 −00 30 25.47 15.953 +0.637 0.033 +0.396 +0.395 +0.792 2 1 0.0233 0.0184 0.0707 0.0382 0.0488 0.0870 107 601 15 39 13.88 − 00 13 28.014.646+1.412+1.265+0.923+0.835+1.76133130.00450.00730.02470.00350.00310.0038− 101 281 09 57 05.02 −00 31 43.211.576+0.812+0.415+0.453+0.412+0.86423150.00230.00130.00310.00130.00090.0013 − 101 L4 09 57 07.76 00 31 24.416.264+0.793+0.362+0.578+0.062+0.6442 10.01700.01410.00140.01910.26380.2807 − 101 L5 09 57 10.21 00 30 40.315.928+0.622+0.115+0.414+0.305+0.7202 10.01060.02830.08630.00780.01340.0212 − 101 421 09 57 16.107 00 17 18.20 13.180 +0.507 0.031 +0.327 +0.296 +0.623 2 1 0.0021 0.0021 0.0035 0.0021 0.0007 0.0014 − − 101 338 09 57 17.754 00 21 00.34 13.788 +0.634 +0.024 +0.350 +0.340 +0.691 2 1 0.0071 0.0071 0.0042 0.0021 0.0035 0.0014 − 101 339 09 57 18.389 00 25 01.80 14.449 +0.850 +0.501 +0.458 +0.398 +0.857 2 1 0.0099 0.0085 0.0099 0.0240 0.0042 0.0290 − 101 424 09 57 20.263 00 16 25.88 15.058 +0.764 +0.273 +0.429 +0.425 +0.855 2 1 0.0276 0.0389 0.0191 0.0226 0.0205 0.0431 − o ,2009 5, No. Table 2 (Continued)

Mean Error of the Mean Star α (J2000.0) δ (J2000.0) VBVUBVRRIVInm V BVUBVRRIVI − − − − − − − − − − (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) 99 447 07 56 06.686 00 20 42.37 9.419 0.068 0.220 0.031 0.041 0.073 108 97 0.0006 0.0005 0.0008 0.0004 0.0004 0.0006 − − − − − − 100 241 08 52 34.049 00 39 48.96 10.140 +0.157 +0.106 +0.078 +0.085 +0.162 67 57 0.0006 0.0005 0.0009 0.0004 0.0004 0.0004 − 100 162 08 53 14.418 00 43 30.35 9.150 +1.276 +1.495 +0.649 +0.552 +1.202 86 67 0.0009 0.0008 0.0012 0.0004 0.0006 0.0006 − 100 267 08 53 17.212 00 41 29.35 13.0274240 +0.485 0.062 +0.307 +0.302 +0.608 3 LANDOLT 3 0.0069 0.0023 0.0133 0.0075 0.0040 0.0040 Vol. 137 − − 100 269 08 53 18.464 00 41 09.81 12.350 +0.547 0.040 +0.335 +0.331 +0.666 3 3 0.0035 0.0029 0.0150 0.0035 0.0029 0.0017 − − 100 280 08 53 35.477 00 36 41.16 11.799 +0.493 0.001 +0.295 +0.291 +0.588 72 61 0.0007 0.0007 0.0010 0.0006 0.0006 0.0009 − − 100 394 08 53 54.515 00 32 22.08 11.384 +1.317 +1.457 +0.705 +0.636 +1.341 9 5 0.0080 0.0040 0.0087 0.0023 0.0027 0.0030 − PG0918+029D 09 21 21.936 +02 47 28.28 12.272 +1.044 +0.821 +0.575 +0.535 +1.108 19 11 0.0021 0.0030 0.0071 0.0016 0.0018 0.0018 PG0918+029 09 21 28.217 +02 46 02.27 13.327 0.271 1.081 0.129 0.159 0.288 45 27 0.0024 0.0024 0.0030 0.0019 0.0055 0.0063 − − − − − PG0918+029B 09 21 32.924 +02 47 59.08 13.963 +0.765 +0.366 +0.417 +0.370 +0.787 20 11 0.0034 0.0072 0.0159 0.0025 0.0045 0.0056

PG0918+029A 09 21 35.107 +02 46 19.43 14.490 +0.536 0.032 +0.325 +0.336 +0.661 29 14 0.0033 0.0058 0.0095 0.0039 0.0076 0.0085 UBVRI − PG0918+029C 09 21 42.306 +02 46 37.07 13.537 +0.631 +0.087 +0.367 +0.357 +0.722 21 10 0.0020 0.0028 0.0048 0.0015 0.0022 0.0028 BD 12 2918 09 31 19.37 13 29 19.310.067+1.501+1.166+1.067+1.318+2.3851390.00250.00280.00750.00390.00220.0042 − − 4195 STARS STANDARD EQUATORIAL PG0942 029D 09 45 08.637 03 05 54.45 13.683 +0.576 +0.064 +0.341 +0.329 +0.668 13 8 0.0009 0.0029 0.0054 0.0015 0.0039 0.0044 − − PG0942 029A 09 45 09.90 03 10 14.214.738+0.888+0.552+0.563+0.474+1.0351680.00210.00210.00650.00230.00410.0050 − − PG0942 029B 09 45 11.574 03 06 58.11 14.105 +0.573 +0.014 +0.353 +0.341 +0.693 13 8 0.0022 0.0014 0.0043 0.0018 0.0036 0.0041 − − PG0942 029 09 45 11.85 03 09 21.014.012 0.298 1.177 0.132 0.165 0.296 21 13 0.0022 0.0025 0.0031 0.0026 0.0058 0.0067 − − − − − − −

PG0942 029C 09 45 14.386 03 06 40.28 14.950 +0.803 +0.338 +0.488 +0.395 +0.884 16 8 0.0024 0.0024 0.0049 0.0021 0.0045 0.0053 2009 5, No. − − 101 315 09 54 51.298 00 27 31.09 11.249 +1.153 +1.056 +0.612Table +0.559 2 +1.172 19 11 0.0037 0.0018 0.0067 0.0016 0.0011 0.0021 − 101 316 09 54 52.034 00 18 34.51 11.552 +0.493 +0.032 +0.293(Continued) +0.291 +0.584 17 10 0.0027 0.0024 0.0036 0.0019 0.0029 0.0032 − 101 L1 09 55 29.09 00 21 42.616.501+0.757 0.104 +0.421 +0.527 +0.947 4 1 0.0310 0.0340 0.0290 0.0225 0.0855 0.1070 − −Figure 52. Field, 10 on a side, of SA 101 SF2. Figure 55. Field, 10′ on a side, of the star G 44-27. 101 320 09 55 32.924 00 22 32.72 13.823 +1.052 +0.690 +0.581′ +0.561 +1.141 11 7 0.0048 0.0103 0.0181Mean Error 0.0039 of the Mean 0.0036 0.0045 − Star α (J2000.0) δ (J2000.0) VBVUBVRRIVInm V BVUBVRRIVI 101 L2 09 55 34.688 00 18 50.10 15.770 +0.602− +0.082− +0.321− +0.304− +0.625− 1 1 − − − − − (1) (2)− (3) (4) (5) (6) (7) (8) (9) (10) (11)··· (12) ··· (13) ··· (14) ··· (15) ··· (16) ··· (17) 101 404 09 55 40.673 00 18 22.23 13.459 +0.996 +0.697 +0.530 +0.500 +1.029 12 7 0.0040 0.0078 0.0095 0.0049 0.0032 0.0055 − 99101 447 324 09 07 55 56 56 06.650686 0000 23 20 15 42..1037 9.737 9.419 +1.1610.068 +1.1450.220 +0.5910.031 +0.5190.041 +1.1090.073 60 108 47 97 0.0005 0.0006 0.0008 0.0005 0.0018 0.0008 0.0006 0.0004 0.0007 0.0004 0.0010 0.0006 −− − − − − − 100101 241 408 09 08 56 52 08 34.001049 0000 12 39 41 48..2896 14.785 10.140 +1.200 +0.157 +1.347 +0.106 +0.718 +0.078 +0.603 +0.085 +1.321 +0.162 2 67 1 57 0.0240 0.0006 0.0438 0.0005 0.0170 0.0009 0.0170 0.0004 0.0120 0.0004 0.0297 0.0004 −− 101 262 09 56 08.096 00 29 50.50 14.295 +0.784 +0.297 +0.440 +0.387 +0.827 4 2 0.0045 0.0160 0.0205 0.0075 0.0100 0.0035 100 162 08 53 14.418 − 00 43 30.35 9.150 +1.276 +1.495 +0.649 +0.552 +1.202 86 67 0.0009 0.0008 0.0012 0.0004 0.0006 0.0006 101 326 09 56 08.101 −00 27 10.94 14.923 +0.729 +0.227 +0.406 +0.375 +0.780 13 6 0.0078 0.0094 0.0128 0.0055 0.0111 0.0122 100 267 08 53 17.212 − 00 41 29.35 13.027 +0.485 0.062 +0.307 +0.302 +0.608 3 3 0.0069 0.0023 0.0133 0.0075 0.0040 0.0040 101 327 09 56 08.86 −00 25 53.513.441+1.155+1.139+0.717+0.574+1.29028150.00320.00570.00980.00230.00170.0028− 100 269 08 53 18.464 − 00 41 09.81 12.350 +0.547 0.040 +0.335 +0.331 +0.666 3 3 0.0035 0.0029 0.0150 0.0035 0.0029 0.0017 101 410 09 56 09.136 −00 14 02.23 13.646 +0.546 −0.063 +0.298 +0.326 +0.623 2 1 0.0085 0.0014 0.0021 0.0106 0.0035 0.0064 100 280 08 53 35.477 − 00 36 41.16 11.799 +0.493 − 0.001 +0.295 +0.291 +0.588 72 61 0.0007 0.0007 0.0010 0.0006 0.0006 0.0009 101 413 09 56 14.009 −00 11 54.86 12.583 +0.983 +0.716− +0.529 +0.497 +1.025 9 6 0.0023 0.0047 0.0103 0.0033 0.0040 0.0040 100 394 08 53 54.515 − 00 32 22.08 11.384 +1.317 +1.457 +0.705 +0.636 +1.341 9 5 0.0080 0.0040 0.0087 0.0023 0.0027 0.0030 101 268 09 56 17.377 −00 31 57.05 14.380 +1.531 +1.381 +1.040 +1.200 +2.237 11 5 0.0078 0.0199 0.0769 0.0048 0.0036 0.0045 PG0918+029D 09 21 21.936− +02 47 28.28 12.272 +1.044 +0.821 +0.575 +0.535 +1.108 19 11 0.0021 0.0030 0.0071 0.0016 0.0018 0.0018 101 330 09 56 20.587 00 27 22.12 13.723 +0.577 0.026 +0.346 +0.338 +0.684 28 14 0.0038 0.0038 0.0051 0.0028 0.0057 0.0064 PG0918+029 09 21 28.217− +02 46 02.27 13.327 0.271 − 1.081 0.129 0.159 0.288 45 27 0.0024 0.0024 0.0030 0.0019 0.0055 0.0063 101 415 09 56 23.145 00 16 53.02 15.259 +0.577− −0.008 +0.346− +0.350− +0.695− 15 2 1 0.0028 0.0247 0.0021 0.0198 0.0134 0.0332 PG0918+029B 09 21 32.924− +02 47 59.08 13.963 +0.765− +0.366 +0.417 +0.370 +0.787 20 11 0.0034 0.0072 0.0159 0.0025 0.0045 0.0056

101 270 09 56 27.023 00 35 44.15 13.711 +0.554 +0.055 +0.332 +0.306 +0.637 2 1 0.0014 0.0127 0.0049 0.0071 0.0014 UBVRI PG0918+029A 09 21 35.107− +02 46 19.43 14.490 +0.536 0.032 +0.325 +0.336 +0.661 29 14··· 0.0033 0.0058 0.0095 0.0039 0.0076 0.0085 101 278 09 56 54.467 00 29 38.39 15.494 +1.041 +0.737− +0.596 +0.548 +1.144 2 1 0.0184 0.0226 0.0269 0.0198 0.0148 0.0346 PG0918+029C 09 21 42.306− +02 46 37.07 13.537 +0.631 +0.087 +0.367 +0.357 +0.722 21 10 0.0020 0.0028 0.0048 0.0015 0.0022 0.0028 101 L3 09 56 55.025 00 30 25.47 15.953 +0.637 0.033 +0.396 +0.395 +0.792 2 1 0.0233 0.0184 0.0707 0.0382 0.0488 0.0870 − − BD101 28112 2918 09 57 31 05 19.0237 0013 31 29 43 19..211.576+0.812+0.415+0.453+0.412+0.86423150.00230.00130.00310.00130.00090.0013310.067+1.501+1.166+1.067+1.318+2.3851390.00250.00280.00750.00390.00220.0042 − −− 4195 STARS STANDARD EQUATORIAL PG0942101 L4029D 09 57 45 07 08.76637 0003 31 05 24 54..416.264+0.793+0.362+0.578+0.062+0.644245 13.683 +0.576 +0.064 +0.341 +0.329 +0.668 13 10.01700.01410.00140.01910.26380.2807 8 0.0009 0.0029 0.0054 0.0015 0.0039 0.0044 − −− PG0942101 L5029A 09 57 45 10 09.2190 0003 30 10 40 14..315.928+0.622+0.115+0.414+0.305+0.7202214.738+0.888+0.552+0.563+0.474+1.0351680.00210.00210.00650.00230.00410.0050 10.01060.02830.08630.00780.01340.0212 − −− Figure 53. Field, 10′ on a side, of the star BD +1 2447. Figure 56. Field, 10′ on a side, of the star PG1034+001. PG0942101 421029B 09 57 45 16 11.107574 0003 17 06 18 58..2011 13.180 14.105 +0.507 +0.5730.031 +0.014 +0.327 +0.353 +0.296 +0.341 +0.623 +0.693 2 13 1 8 0.0021 0.0022 0.0021 0.0014 0.0035 0.0043 0.0021 0.0018 0.0007 0.0036 0.0014 0.0041 − −− − PG0942101 338029 09 57 45 17 11.75485 0003 21 09 00 21..34014.012 13.788 +0.6340.298 +0.0241.177 +0.3500.132 +0.3400.165 +0.6910.296 2 21 1 13 0.0071 0.0022 0.0071 0.0025 0.0042 0.0031 0.0021 0.0026 0.0035 0.0058 0.0014 0.0067 − −− − − − − − PG0942 029C 09 45 14.386 03 06 40.28 14.950 +0.803 +0.338 +0.488 +0.395 +0.884 16 8 0.0024 0.0024 0.0049 0.0021 0.0045 0.0053 101 339− 09 57 18.389 −00 25 01.80 14.449 +0.850 +0.501 +0.458 +0.398 +0.857 2 1 0.0099 0.0085 0.0099 0.0240 0.0042 0.0290 101 315 09 54 51.298 − 00 27 31.09 11.249 +1.153 +1.056 +0.612 +0.559 +1.172 19 11 0.0037 0.0018 0.0067 0.0016 0.0011 0.0021 101 424 09 57 20.263 −00 16 25.88 15.058 +0.764 +0.273 +0.429 +0.425 +0.855 2 1 0.0276 0.0389 0.0191 0.0226 0.0205 0.0431 101 316 09 54 52.034 − 00 18 34.51 11.552 +0.493 +0.032 +0.293 +0.291 +0.584 17 10 0.0027 0.0024 0.0036 0.0019 0.0029 0.0032 − 101 L1 09 55 29.09 00 21 42.616.501+0.757 0.104 +0.421 +0.527 +0.947 4 1 0.0310 0.0340 0.0290 0.0225 0.0855 0.1070 − − 101 320 09 55 32.924 00 22 32.72 13.823 +1.052 +0.690 +0.581 +0.561 +1.141 11 7 0.0048 0.0103 0.0181 0.0039 0.0036 0.0045 − 101 L2 09 55 34.688 00 18 50.10 15.770 +0.602 +0.082 +0.321 +0.304 +0.625 1 1 − ··· ··· ··· ··· ··· ··· 101 404 09 55 40.673 00 18 22.23 13.459 +0.996 +0.697 +0.530 +0.500 +1.029 12 7 0.0040 0.0078 0.0095 0.0049 0.0032 0.0055 − 101 324 09 55 56.650 00 23 15.10 9.737 +1.161 +1.145 +0.591 +0.519 +1.109 60 47 0.0005 0.0008 0.0018 0.0006 0.0007 0.0010 − 101 408 09 56 08.001 00 12 41.28 14.785 +1.200 +1.347 +0.718 +0.603 +1.321 2 1 0.0240 0.0438 0.0170 0.0170 0.0120 0.0297 − 101 262 09 56 08.096 00 29 50.50 14.295 +0.784 +0.297 +0.440 +0.387 +0.827 4 2 0.0045 0.0160 0.0205 0.0075 0.0100 0.0035 − 101 326 09 56 08.101 00 27 10.94 14.923 +0.729 +0.227 +0.406 +0.375 +0.780 13 6 0.0078 0.0094 0.0128 0.0055 0.0111 0.0122 − 101 327 09 56 08.86 00 25 53.513.441+1.155+1.139+0.717+0.574+1.29028150.00320.00570.00980.00230.00170.0028 − 101 410 09 56 09.136 00 14 02.23 13.646 +0.546 0.063 +0.298 +0.326 +0.623 2 1 0.0085 0.0014 0.0021 0.0106 0.0035 0.0064 − − 101 413 09 56 14.009 00 11 54.86 12.583 +0.983 +0.716 +0.529 +0.497 +1.025 9 6 0.0023 0.0047 0.0103 0.0033 0.0040 0.0040 − 101 268 09 56 17.377 00 31 57.05 14.380 +1.531 +1.381 +1.040 +1.200 +2.237 11 5 0.0078 0.0199 0.0769 0.0048 0.0036 0.0045 − 101 330 09 56 20.587 00 27 22.12 13.723 +0.577 0.026 +0.346 +0.338 +0.684 28 14 0.0038 0.0038 0.0051 0.0028 0.0057 0.0064 − Figure− 54. Field, 10′ on a side, of the star G 162-66. Figure 57. Field, 10 on a side, of the star G 163-6. 101 415 09 56 23.145 00 16 53.02 15.259 +0.577 0.008 +0.346 +0.350 +0.695 2 1 0.0028 0.0247 0.0021′ 0.0198 0.0134 0.0332 − − 101 270 09 56 27.023 00 35 44.15 13.711 +0.554 +0.055 +0.332 +0.306 +0.637 2 1 0.0014 0.0127 0.0049 0.0071 0.0014 − ··· 101 278 09 56 54.467 00 29 38.39 15.494 +1.041 +0.737 +0.596 +0.548 +1.144 2 1 0.0184 0.0226 0.0269 0.0198 0.0148 0.0346 − 101 L3 09 56 55.025 00 30 25.47 15.953 +0.637 0.033 +0.396 +0.395 +0.792 2 1 0.0233 0.0184 0.0707 0.0382 0.0488 0.0870 − − 101 281 09 57 05.02 00 31 43.211.576+0.812+0.415+0.453+0.412+0.86423150.00230.00130.00310.00130.00090.0013 − 101 L4 09 57 07.76 00 31 24.416.264+0.793+0.362+0.578+0.062+0.6442 10.01700.01410.00140.01910.26380.2807 − 101 L5 09 57 10.21 00 30 40.315.928+0.622+0.115+0.414+0.305+0.7202 10.01060.02830.08630.00780.01340.0212 − 101 421 09 57 16.107 00 17 18.20 13.180 +0.507 0.031 +0.327 +0.296 +0.623 2 1 0.0021 0.0021 0.0035 0.0021 0.0007 0.0014 − − 101 338 09 57 17.754 00 21 00.34 13.788 +0.634 +0.024 +0.350 +0.340 +0.691 2 1 0.0071 0.0071 0.0042 0.0021 0.0035 0.0014 − 101 339 09 57 18.389 00 25 01.80 14.449 +0.850 +0.501 +0.458 +0.398 +0.857 2 1 0.0099 0.0085 0.0099 0.0240 0.0042 0.0290 − 101 424 09 57 20.263 00 16 25.88 15.058 +0.764 +0.273 +0.429 +0.425 +0.855 2 1 0.0276 0.0389 0.0191 0.0226 0.0205 0.0431 − 4238 LANDOLT Vol. 137 16LNOTVl 137 Vol. LANDOLT 4196 Table 2 (Continued)

Mean Error of the Mean Star α (J2000.0) δ (J2000.0) VBVUBVRRIVInm V BVUBVRRIVI Figure 46. Field, 15′ on a side, of the sequence in the vicinity of the star −Figure 60. Field,− 15′ on a side,− of the sequence− in the vicinity− of the star − − − − − (1)PG0918+029. (2) (3) (4) (5)PG1047+003. (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) 101 427 09 57 26.429 00 17 16.96 14.964 +0.805 +0.321 +0.484 +0.369 +0.854 2 1 0.0269 0.0297 0.0014 0.0247 0.0113 0.0368 − 101 341 09 57 29.828 00 21 53.80 14.342 +0.575 +0.059 +0.332 +0.309 +0.641 2 1 0.0113 0.0141 0.0071 0.0007 0.0078 0.0071 − 101 342 09 57 31.21 00 21 50.9 15.556 +0.529 0.065 +0.339 +0.419 +0.758 2 1 0.0141 0.0085 0.0085 0.0240 0.0021 0.0226 − − 101 343 09 57 31.301 00 22 55.34 15.504 +0.606 +0.094 +0.396 +0.338 +0.734 2 1 0.0276 0.0488 0.0177 0.0226 0.0255 0.0481 − 101 429 09 57 31.73 00 18 15.2 13.496 +0.980 +0.782 +0.617 +0.526 +1.143 23 13 0.0039 0.0019 0.0060 0.0017 0.0020 0.0030 − 101 431 09 57 37.322 00 17 53.28 13.684 +1.246 +1.144 +0.808 +0.708 +1.517 23 13 0.0056 0.0063 0.0102 0.0033 0.0029 0.0042 − 101 L6 09 57 39.54 00 17 53.8 16.497 +0.711 +0.183 +0.445 +0.583 +1.024 2 1 0.0219 0.0092 0.0311 0.0113 0.1648 0.1732 − 101 207 09 57 52.495 00 47 36.17 12.421 +0.513 0.080 +0.320 +0.323 +0.645 26 18 0.0016 0.0018 0.0039 0.0014 0.0016 0.0015 − − 101 363 09 58 18.722 00 25 36.51 9.874 +0.260 +0.132 +0.146 +0.151 +0.297 57 48 0.0010 0.0006 0.0016 0.0007 0.0007 0.0010 − GD 108A 10 00 39.585 07 33 25.10 13.881 +0.789 +0.316 +0.458 +0.449 +0.909 15 8 0.0018 0.0032 0.0066 0.0010 0.0011 0.0011 − GD 108B 10 00 42.665 07 31 07.90 15.056 +0.839 +0.364 +0.463 +0.466 +0.924 20 9 0.0019 0.0043 0.0092 0.0029 0.0022 0.0048 − GD 108 10 00 47.25 07 33 31.0 13.563 0.214 0.943 0.099 0.118 0.218 22 13 0.0025 0.0038 0.0039 0.0024 0.0026 0.0026 − − − − − − GD 108C 10 00 55.223 07 30 29.59 13.819 +0.786 +0.345 +0.435 +0.393 +0.825 16 9 0.0011 0.0034 0.0037 0.0031 0.0020 0.0043 − GD 108D 10 00 55.916 07 34 51.83 14.235 +0.641 +0.078 +0.372 +0.357 +0.731 16 8 0.0010 0.0020 0.0050 0.0022 0.0042 0.0034 − BD +1 2447 10 28 55.551 +00 50 27.56 9.650 +1.501 +1.238 +1.033 +1.225 +2.261 24 14 0.0027 0.0046 0.0082 0.0024 0.0016 0.0030 G162 66 10 33 42.763 11 41 38.35 13.012 0.165 0.997 0.126 0.141 0.266 88 71 0.0014 0.0010 0.0019 0.0009 0.0020 0.0025 − − − − − − G44 27 10 36 01.21 +05 07 12.8 12.636 +1.586 +1.088 +1.185 +1.526 +2.714 8 4 0.0120 0.0106 0.0106 0.0046 0.0039 0.0032 PG1034+001 10 37 03.803 00 08 19.11 13.228 0.365 1.274 0.155 0.203 0.359 33 16 0.0024 0.0024 0.0033 0.0026 0.0042 0.0054 − − − − − − G163 6 10 42 54.16 +02 47 20.6 14.706 +1.550 +1.228 +1.090 +1.384 +2.478 4 3 0.0070 0.0115 0.0655 0.0090 0.0015 0.0085 PG1047+003 10 50 02.825 00 00 36.85 13.474 0.290 1.121 0.132 0.162 0.295 32 18 0.0039 0.0030 0.0041 0.0037 0.0088 0.0110 − − − − − − PG1047+003A 10 50 05.653 00 01 11.25 13.512 +0.688 +0.168 +0.422 +0.418 +0.840 15 7 0.0046 0.0049 0.0067 0.0026 0.0026 0.0036 − PG1047+003B 10 50 07.915 00 02 04.36 14.751 +0.679 +0.172 +0.391 +0.371 +0.764 13 5 0.0050 0.0086 0.0128 0.0022 0.0080 0.0086 − 2009 5, No. PG1047+003C 10 50 13.682 00 00 32.35 12.453 +0.607 0.019 +0.378 +0.358 +0.737 11 6 0.0093 0.0024 0.0060 0.0036 0.0033 0.0045 − − Table 2 G44 40 10 50 52.01 +06 48 29.3 11.675 +1.644 +1.213 +1.216(Continued) +1.568 +2.786 13 6 0.0033 0.0031 0.0092 0.0031 0.0017 0.0039 102Figure 620 47. Field, 15 10′ on 55 a side,04.231 of the sequence00 48 in 18 the.88 vicinity 10.074 of the star +1.080Figure 61. +1.025Field, 15′ on +0.645a side, of the sequence +0.524 in the +1.169 vicinity of the stars82 G 72 0.0006 0.0005 0.0014 0.0004 0.0006 0.0007 PG0942 029. − 163-50 and G 163-51. G45 20− 10 56 28.91 +07 00 53.2 13.507 +2.034 +1.165 +1.823 +2.174 +4.000 19 10 0.0060 0.0069Mean 0.0346 Error 0.0073 of the Mean 0.0025 0.0062 102 1081 10 57 04.045 00 13 12.87 9.903 +0.664 +0.258 +0.366 +0.332 +0.697 89 80 0.0007 0.0006 0.0013 0.0005 0.0006 0.0008 Star α (J2000.0) −δ (J2000.0) VBVUBVRRIVInm V BVUBVRRIVI G163 27 10 57 35.18 07 31 23.3 14.338 +0.288− 0.548− +0.206− +0.210− +0.417− 26 15 0.0055 0.0047− 0.0065− 0.0041− 0.0075− 0.0082− (1) (2)− (3) (4) (5)− (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) 99G163 447 51E 07 11 56 07 0622..686332 0005 2016 1342.3786 14.466 9.419 +0.6110.068 +0.0950.220 +0.3810.031 +0.3440.041 +0.7250.073 1 108 1 97 0.0150 0.0006 0.0150 0.0005 0.0200 0.0008 0.0150 0.0004 0.0150 0.0004 0.0150 0.0006 −− − − − − − 100G163 241 51B 08 11 52 07 3432..049846 0005 3912 3748.9629 11.292 10.140 +0.623 +0.157 +0.119 +0.106 +0.355 +0.078 +0.336 +0.085 +0.692 +0.162 6 67 3 57 0.0029 0.0006 0.0016 0.0005 0.0024 0.0009 0.0012 0.0004 0.0020 0.0004 0.0029 0.0004 − G163 51C 11 07 33.782 −05 14 20.26 12.672 +0.431 0.009 +0.267 +0.272 +0.540 6 3 0.0033 0.0049 0.0061 0.0024 0.0024 0.0045 − − 100G163 162 51D 08 11 53 07 1434..418915 0005 4315 0030.3550 13.862 9.150 +0.844 +1.276 +0.202 +1.495 +0.478 +0.649 +0.466 +0.552 +0.945 +1.202 6 86 3 67 0.0041 0.0009 0.0029 0.0008 0.0171 0.0012 0.0045 0.0004 0.0086 0.0006 0.0114 0.0006 −− 100G163 267 51A 08 11 53 07 1737..212196 0005 4112 2329.3531 12.504 13.027 +0.666 +0.485 +0.0600.062 +0.382 +0.307 +0.371 +0.302 +0.753 +0.608 6 3 3 3 0.0037 0.0069 0.0020 0.0023 0.0037 0.0133 0.0037 0.0075 0.0037 0.0040 0.0057 0.0040 −− − 100G163 269 50 08 11 53 07 1859..464950 0005 4109 2609.8110 13.057 12.350 +0.036 +0.547 0.6960.040 +0.3350.084 0.072 +0.3310.158 +0.666 84 3 70 3 0.0009 0.0035 0.0012 0.0029 0.0014 0.0150 0.0009 0.0035 0.0016 0.0029 0.0022 0.0017 −− −− − − − 100G163 280 51 08 11 53 08 3506..477539 0005 3613 4741.1619 12.559 11.799 +1.499 +0.493 +1.1950.001 +1.080 +0.295 +1.355 +0.291 +2.434 +0.588 47 72 34 61 0.0012 0.0007 0.0021 0.0007 0.0087 0.0010 0.0010 0.0006 0.0008 0.0006 0.0012 0.0009 −− − 16 100BD 394 +5 2468 08 11 53 15 5430..515897 +0400 3257 2322.0852 11.384 9.352 +1.3170.114 +1.4570.543 0.035 +0.7050.052 +0.6360.089 +1.341 42 9 35 5 0.0017 0.0080 0.0010 0.0040 0.0017 0.0087 0.0006 0.0023 0.0012 0.0027 0.0013 0.0030 − − − − − − PG0918+029DHD 100340 09 11 21 32 2149..936941 +02+05 1647 36 28.2823 10.115 12.272 +1.0440.234 +0.8210.975 0.104 +0.5750.135 +0.5350.238 +1.108 37 19 28 11 0.0012 0.0021 0.0010 0.0030 0.0018 0.0071 0.0005 0.0016 0.0009 0.0018 0.0011 0.0018 − − − − − PG0918+029BD +5 2529 09 11 21 41 2849..217593 +02+05 0846 26 02.2754 13.327 9.585 +1.2330.271 +1.1941.081 +0.7830.129 +0.6670.159 +1.4520.288 35 45 27 27 0.0011 0.0024 0.0012 0.0024 0.0024 0.0030 0.0009 0.0019 0.0007 0.0055 0.0011 0.0063 − − − − − PG0918+029B 09 21 32.924 +02 47 59.08 13.963 +0.765 +0.366 +0.417 +0.370 +0.787 20 11 0.0034 0.0072 0.0159 0.0025 0.0045 0.0056

PG0918+029AG10 50 09 11 21 47 3544..107390 +02+00 4846 16 19.4340 11.153 14.490 +1.752 +0.536 +1.3180.032 +1.294 +0.325 +1.673 +0.336 +2.969 +0.661 14 29 7 14 0.0024 0.0033 0.0024 0.0058 0.0078 0.0095 0.0037 0.0039 0.0021 0.0076 0.0037 0.0085 UBVRI 103 302 11 56 06.021 00 47 54.36 9.859 +0.370 −0.057 +0.230 +0.236 +0.465 76 63 0.0007 0.0005 0.0009 0.0005 0.0007 0.0009 PG0918+029C 09 21 42.306− +02 46 37.07 13.537 +0.631− +0.087 +0.367 +0.357 +0.722 21 10 0.0020 0.0028 0.0048 0.0015 0.0022 0.0028 103 626 11 56 46.156 00 23 14.71 11.836 +0.413 0.057 +0.262 +0.274 +0.535 17 10 0.0034 0.0027 0.0032 0.0022 0.0015 0.0024 − − BD103 52612 2918 09 11 31 56 1954..37182 1300 2930 1319.310.067+1.501+1.166+1.067+1.318+2.3851390.00250.00280.00750.00390.00220.004247 10.890 +1.090 +0.936 +0.560 +0.501 +1.056 9 6 0.0005 0.0010 0.0005 0.0011 0.0005 0.0014 − −− 4195 STARS STANDARD EQUATORIAL PG0942G12 43029D 09 12 45 33 08 17..63738 +0903 0501 1554.458 12.467 13.683 +1.846 +0.576 +1.085 +0.064 +1.530 +0.341 +1.944 +0.329 +3.479 +0.668 13 13 6 8 0.0042 0.0009 0.0053 0.0029 0.0466 0.0054 0.0053 0.0015 0.0039 0.0039 0.0033 0.0044 − − PG0942104 306029A 09 12 45 41 09 03..90619 0300 1037 1314.214.738+0.888+0.552+0.563+0.474+1.0351680.00210.00210.00650.00230.00410.005083 9.370 +1.592 +1.666 +0.832 +0.762 +1.591 89 68 0.0067 0.0030 0.0059 0.0020 0.0024 0.0033 − −− PG0942 029B 09 45 11.574 03 06 58.11 14.105 +0.573 +0.014 +0.353 +0.341 +0.693 13 8 0.0022 0.0014 0.0043 0.0018 0.0036 0.0041 − − PG0942 029 09 45 11.85 03 09 21.014.012 0.298 1.177 0.132 0.165 0.296 21 13 0.0022 0.0025 0.0031 0.0026 0.0058 0.0067 − − − − − − − PG0942 029C 09 45 14.386 03 06 40.28 14.950 +0.803 +0.338 +0.488 +0.395 +0.884 16 8 0.0024 0.0024 0.0049 0.0021 0.0045 0.0053 − − 101 315 09 54 51.298 00 27 31.09 11.249 +1.153 +1.056 +0.612 +0.559 +1.172 19 11 0.0037 0.0018 0.0067 0.0016 0.0011 0.0021 − 101 316 09 54 52.034 00 18 34.51 11.552 +0.493 +0.032 +0.293 +0.291 +0.584 17 10 0.0027 0.0024 0.0036 0.0019 0.0029 0.0032 − 101 L1 09 55 29.09 00 21 42.616.501+0.757 0.104 +0.421 +0.527 +0.947 4 1 0.0310 0.0340 0.0290 0.0225 0.0855 0.1070 − − 101 320 09 55 32.924 00 22 32.72 13.823 +1.052 +0.690 +0.581 +0.561 +1.141 11 7 0.0048 0.0103 0.0181 0.0039 0.0036 0.0045 − 101 L2 09 55 34.688 00 18 50.10 15.770 +0.602 +0.082 +0.321 +0.304 +0.625 1 1 − ··· ··· ··· ··· ··· ··· 101 404 09 55 40.673 00 18 22.23 13.459 +0.996 +0.697 +0.530 +0.500 +1.029 12 7 0.0040 0.0078 0.0095 0.0049 0.0032 0.0055 − 101 324 09 55 56.650 00 23 15.10 9.737 +1.161 +1.145 +0.591 +0.519 +1.109 60 47 0.0005 0.0008 0.0018 0.0006 0.0007 0.0010 − 101 408 09 56 08.001 00 12 41.28 14.785 +1.200 +1.347 +0.718 +0.603 +1.321 2 1 0.0240 0.0438 0.0170 0.0170 0.0120 0.0297 − 101 262 09 56 08.096 00 29 50.50 14.295 +0.784 +0.297 +0.440 +0.387 +0.827 4 2 0.0045 0.0160 0.0205 0.0075 0.0100 0.0035 − 101 326 09 56 08.101 00 27 10.94 14.923 +0.729 +0.227 +0.406 +0.375 +0.780 13 6 0.0078 0.0094 0.0128 0.0055 0.0111 0.0122 − 101 327 09 56 08.86 00 25 53.513.441+1.155+1.139+0.717+0.574+1.29028150.00320.00570.00980.00230.00170.0028 − 101 410 09 56 09.136 00 14 02.23 13.646 +0.546 0.063 +0.298 +0.326 +0.623 2 1 0.0085 0.0014 0.0021 0.0106 0.0035 0.0064 − − 101 413 09 56 14.009 00 11 54.86 12.583 +0.983 +0.716 +0.529 +0.497 +1.025 9 6 0.0023 0.0047 0.0103 0.0033 0.0040 0.0040 − 101 268 09 56 17.377 00 31 57.05 14.380 +1.531 +1.381 +1.040 +1.200 +2.237 11 5 0.0078 0.0199 0.0769 0.0048 0.0036 0.0045 − 101 330 09 56 20.587 00 27 22.12 13.723 +0.577 0.026 +0.346 +0.338 +0.684 28 14 0.0038 0.0038 0.0051 0.0028 0.0057 0.0064 − − 101 415 09 56 23.145 00 16 53.02 15.259 +0.577 0.008 +0.346 +0.350 +0.695 2 1 0.0028 0.0247 0.0021 0.0198 0.0134 0.0332 − − 101 270 09 56 27.023 00 35 44.15 13.711 +0.554 +0.055 +0.332 +0.306 +0.637 2 1 0.0014 0.0127 0.0049 0.0071 0.0014 − ··· 101 278 09 56 54.467 00 29 38.39 15.494 +1.041 +0.737 +0.596 +0.548 +1.144 2 1 0.0184 0.0226 0.0269 0.0198 0.0148 0.0346 − 101 L3 09 56 55.025 00 30 25.47 15.953 +0.637 0.033 +0.396 +0.395 +0.792 2 1 0.0233 0.0184 0.0707 0.0382 0.0488 0.0870 − − 101 281 09 57 05.02 00 31 43.211.576+0.812+0.415+0.453+0.412+0.86423150.00230.00130.00310.00130.00090.0013 − 101 L4 09 57 07.76 00 31 24.416.264+0.793+0.362+0.578+0.062+0.6442 10.01700.01410.00140.01910.26380.2807 − 101 L5 09 57 10.21 00 30 40.315.928+0.622+0.115+0.414+0.305+0.7202 10.01060.02830.08630.00780.01340.0212 − 101 421 09 57 16.107 00 17 18.20 13.180 +0.507 0.031 +0.327 +0.296 +0.623 2 1 0.0021 0.0021 0.0035 0.0021 0.0007 0.0014 − − 101 338 09 57 17.754 00 21 00.34 13.788 +0.634 +0.024 +0.350 +0.340 +0.691 2 1 0.0071 0.0071 0.0042 0.0021 0.0035 0.0014 − 101 339 09 57 18.389 00 25 01.80 14.449 +0.850 +0.501 +0.458 +0.398 +0.857 2 1 0.0099 0.0085 0.0099 0.0240 0.0042 0.0290 − 101 424 09 57 20.263 00 16 25.88 15.058 +0.764 +0.273 +0.429 +0.425 +0.855 2 1 0.0276 0.0389 0.0191 0.0226 0.0205 0.0431 − 4244 LANDOLT Vol. 137

Figure 67. Field, 10′ on a side, of the star G 10-50. Figure 71. Field, 10′ on a side, of SA 103 SF1. o ,2009 5, No. Table 2 (Continued)

Mean Error of the Mean Star α (J2000.0) δ (J2000.0) VBVUBVRRIVInm V BVUBVRRIVI − − − − − − − − − − (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) 104 423 12 41 35.959 00 31 11.26 15.602 +0.630 +0.050 +0.262 +0.559 +0.818 2 1 0.0247 0.0389 0.0269 0.0361 0.1167 0.1520 − 104 428 12 41 41.284 00 26 26.13 12.630 +0.985 +0.748 +0.534 +0.497 +1.032 25 16 0.0038 0.0028 0.0044 0.0024 0.0018 0.0036 − 104 L1 12 41 49.42 00 21 01.214.608+0.630+0.064+0.374+0.364+0.7392 10.00070.00140.01270.01130.01630.0042 − 104 430 12 41 50.259 00 25 52.44 13.858 +0.652 +0.131 +0.364 +0.363 +0.727 15 8 0.0052 0.0062 0.0085 0.0046 0.0041 0.0065 − 104 325 12 42 02.210 00 41 35.93 15.581 +0.694 +0.051 +0.345 +0.307 +0.652 2 1 0.0163 0.0431 0.0219 0.0255 0.0148 0.0403 − 104 330 12 42 11.418 00 40 41.44 15.296 +0.594 0.028 +0.369 +0.371 +0.739 15 6 0.0103 0.0276 0.0155 0.0124 0.0214 0.0225 − − 104 440 12 42 14.30 00 24 46.315.114+0.440 0.227 +0.289 +0.317 +0.605 11 5 0.0081 0.0084 0.0103 0.0069 0.0232 0.0262 − − 104 237 12 42 16.874 00 51 18.21 15.395 +1.088 +0.918 +0.647 +0.628 +1.274 1 1 − ··· ··· ··· ··· ··· ··· 104 L2 12 42 19.621 00 34 23.90 16.048 +0.650 0.172 +0.344 +0.323 +0.667 4 2 0.0190 0.0265 0.0450 0.0295 0.0755 0.1000 − − 104 443 12 42 19.813 00 25 21.21 15.372 +1.331 +1.280 +0.817 +0.778 +1.595 3 2 0.0087 0.0023 0.1120 0.0139 0.0104 0.0202

− 2009 5, No. 104 239 12 42 22.91 00 46 35.613.936+1.356+1.291+0.868+0.805+1.6757 30.00600.00870.02310.00450.00300.0057 4197 STARS STANDARD EQUATORIAL − Table 2 (Continued) 104 336 12 42 24.64 00 39 58.014.404+0.830+0.495+0.461+0.403+0.8651460.00670.00720.01230.00590.00990.0104 Figure 68. Field, 10 on a side, of the star G 12-43.− 104 338′ 12 42 30.142 00 38 32.39 16.059 +0.591 0.082Figure 73. +0.348Field, 10 +0.372′ on a side, +0.719 of SA 104 8 SF1. 5 0.0078 0.0219 0.0368 0.0088 0.0209 0.0170 − − Mean Error of the Mean 104 339 12 42 33.298 00 41 39.88 15.459 +0.832 +0.709 +0.476 +0.374 +0.849 1 1 − ··· ··· ··· ··· ··· ··· Star104 244 12α (J2000.0) 42 34.235 δ00(J2000.0) 45 47.06 16.011VB +0.590VU0.152BV +0.338RR +0.489IV +0.825Inm 2 2 0.0092 V 0.0057 BVU 0.0113BV 0.0035RR 0.0269IV 0.0290I − − − − − − − − − − − − (1)104 455 12 42 (2) 52.116 00 24 (3) 17.43 15.105 (4) +0.581 (5)0.024 (6) +0.360 (7) +0.357 (8) +0.716 (9) 13 (10) 7 (11) 0.0067 (12) 0.0144 (13) 0.0122 (14) 0.0053 (15) 0.0089 (16) 0.0122 (17) − − 99104 447 456 07 12 56 42 06 53..686505 0000 20 32 42 00..3791 12.362 9.419 +0.6220.068 +0.1350.220 +0.3570.031 +0.3370.041 +0.6940.073 108 4 297 0.0025 0.0006 0.0025 0.0005 0.0045 0.0008 0.0035 0.0004 0.0065 0.0004 0.0080 0.0006 −− − − − − − 100104 241 457 08 12 52 42 34 54..049195 0000 39 28 48 48..9668 10.14016.048 +0.753+0.157 +0.522 +0.106 +0.484 +0.078 +0.490 +0.085 +0.974 +0.162 9 67 4 57 0.0107 0.0006 0.0187 0.0005 0.0770 0.0009 0.0183 0.0004 0.0370 0.0004 0.0213 0.0004 −− 104 460 12 43 02.86 00 28 19.012.895+1.281+1.246+0.813+0.695+1.51136280.00190.00140.00260.00060.00100.0015 100 162 08 53 14.418 −00 43 30.35 9.150 +1.276 +1.495 +0.649 +0.552 +1.202 86 67 0.0009 0.0008 0.0012 0.0004 0.0006 0.0006 104 461 12 43 06.031 − 00 32 18.01 9.705 +0.476 0.035 +0.288 +0.289 +0.579 112 90 0.0005 0.0006 0.0009 0.0004 0.0005 0.0005 100 267 08 53 17.212 −00 41 29.35 13.027 +0.485 −0.062 +0.307 +0.302 +0.608 3 3 0.0069 0.0023 0.0133 0.0075 0.0040 0.0040 104 350 12 43 14.204 − 00 33 20.54 13.634 +0.673− +0.165 +0.383 +0.353 +0.736 14 7 0.0043 0.0035 0.0056 0.0032 0.0045 0.0061 100 269 08 53 18.464 −00 41 09.81 12.350 +0.547 0.040 +0.335 +0.331 +0.666 3 3 0.0035 0.0029 0.0150 0.0035 0.0029 0.0017 − − 100104 280 470 08 12 53 43 35 22..477314 0000 36 29 41 52..1683 11.79914.310 +0.732+0.493 +0.1010.001 +0.295 +0.295 +0.356 +0.291 +0.649 +0.588 3 72 1 61 0.0121 0.0007 0.0092 0.0007 0.0202 0.0010 0.0133 0.0006 0.0035 0.0006 0.0150 0.0009 −− − 100104 394 364 08 12 53 43 54 45..515986 0000 32 34 22 31..0863 11.38415.799 +0.601+1.317 +1.4570.131 +0.314 +0.705 +0.397 +0.636 +0.712 +1.341 2 9 1 5 0.0156 0.0080 0.0488 0.0040 0.0559 0.0087 0.0085 0.0023 0.0410 0.0027 0.0495 0.0030 −− − 17 PG0918+029D104 366 09 12 21 43 21 53..93617 +0200 4734 2845..28412.908+0.870+0.424+0.517+0.464+0.9821 12.272 +1.044 +0.821 +0.575 +0.535 +1.108 19 1 11 0.0021 0.0030 0.0071 0.0016 0.0018 0.0018 − ··· ··· ··· ··· ··· ··· PG0918+029104 479 09 12 21 43 28 55..217279 +0200 4632 0249..2739 13.32716.087 +1.2710.271 +0.6731.081 +0.6570.129 +0.6070.159 +1.2640.288 452 127 0.0339 0.0024 0.0276 0.0024 0.3995 0.0030 0.0028 0.0019 0.0035 0.0055 0.0071 0.0063 − − − − − − PG0918+029B104 367 09 12 21 43 32 58..924453 +0200 4733 5933..0887 13.96315.844 +0.639+0.765 +0.3660.126 +0.382 +0.417 +0.296 +0.370 +0.679 +0.787 2 20 1 11 0.0255 0.0034 0.0212 0.0072 0.0156 0.0159 0.0177 0.0025 0.0042 0.0045 0.0226 0.0056 − − PG0918+029A104 484 09 12 21 44 35 20..107526 +0200 4630 1954..4329 14.49014.406 +1.024+0.536 +0.7320.032 +0.514 +0.325 +0.486 +0.336 +1.000 +0.661 2 29 1 14 0.0071 0.0033 0.0184 0.0058 0.0134 0.0095 0.0057 0.0039 0.0064 0.0076 0.0120 0.0085 UBVRI − − PG0918+029C104 485 09 12 21 44 42 23..306810 +0200 4630 3716..0738 13.53715.017 +0.838+0.631 +0.493 +0.087 +0.478 +0.367 +0.488 +0.357 +0.967 +0.722 2 21 1 10 0.0113 0.0020 0.0339 0.0028 0.0226 0.0048 0.0014 0.0015 0.0113 0.0022 0.0099 0.0028 − 104 490 12 44 33.454 00 25 51.78 12.572 +0.535 +0.048 +0.318 +0.312 +0.630 12 8 0.0029 0.0032 0.0052 0.0023 0.0023 0.0026 BD 12 2918 09 31 19.37 −13 29 19.310.067+1.501+1.166+1.067+1.318+2.3851390.00250.00280.00750.00390.00220.0042 104− 598 12 45 16.779 − 00 16 40.47 11.478 +1.108 +1.051 +0.667 +0.545 +1.214 88 76 0.0010 0.0008 0.0023 4195 0.0004 0.0004 0.0005 STARS STANDARD EQUATORIAL PG0942 029D 09 45 08.637 −03 05 54.45 13.683 +0.576 +0.064 +0.341 +0.329 +0.668 13 8 0.0009 0.0029 0.0054 0.0015 0.0039 0.0044 PG1323− 086 13 25 39.468 − 08 49 19.12 13.481 0.140 0.681 0.048 0.078 0.127 39 18 0.0019 0.0022 0.0026 0.0018 0.0045 0.0045 PG0942 −029A 09 45 09.90 −03 10 14.214.738+0.888+0.552+0.563+0.474+1.0351680.00210.00210.00650.00230.00410.0050− − − − − − − PG0942PG1323 029B086A 09 13 45 25 11 49..574722 0308 06 50 58 23..1153 14.10513.591 +0.393+0.573 +0.0140.019 +0.252 +0.353 +0.252 +0.341 +0.506 +0.693 20 13 12 8 0.0257 0.0022 0.0022 0.0014 0.0045 0.0043 0.0027 0.0018 0.0047 0.0036 0.0060 0.0041 −− −− − PG0942PG1323 029086C 09 13 45 25 11 50..85222 0308 09 48 21 38..014.01294 14.003 +0.7070.298 +0.2451.177 +0.3950.132 +0.3630.165 +0.7590.296 26 21 13 13 0.0031 0.0022 0.0027 0.0025 0.0076 0.0031 0.0024 0.0026 0.0041 0.0058 0.0049 0.0067 −− −− − − − − − PG0942PG1323 029C086B 09 13 45 25 14 50..386651 0308 06 50 40 55..2810 14.95013.406 +0.761+0.803 +0.265 +0.338 +0.426 +0.488 +0.407 +0.395 +0.833 +0.884 23 16 13 8 0.0019 0.0024 0.0029 0.0024 0.0042 0.0049 0.0023 0.0021 0.0023 0.0045 0.0031 0.0053 −− −− 101PG1323 315086D 09 13 54 26 51 05..298252 0008 27 50 31 36..0919 11.24912.080 +0.587+1.153 +0.005 +1.056 +0.346 +0.612 +0.335 +0.559 +0.684 +1.172 15 19 6 11 0.0023 0.0037 0.0018 0.0018 0.0036 0.0067 0.0013 0.0016 0.0026 0.0011 0.0031 0.0021 − −− 101G14 316 55 09 13 54 28 52 21..034082 0002 18 21 34 37..5107 11.55211.336 +1.491+0.493 +1.157 +0.032 +1.078 +0.293 +1.388 +0.291 +2.462 +0.584 5 17 2 10 0.0058 0.0027 0.0049 0.0024 0.0076 0.0036 0.0067 0.0019 0.0013 0.0029 0.0063 0.0032 Figure 69. Field, 10 on a side, of the star G 14-55.−− 101105 L1 505′ 09 13 55 35 29 24..09773 0000 21 23 42 20..616.501+0.75774 10.270Figure +1.422 80. Field, +1.2180.104 10′ on +0.910 +0.421 a side, of +0.861 +0.527the stars BD +1.771 +0.947 +2 2711 6 (right) 4 3 and 1 UCAC2 0.0061 0.0310 0.0102 0.0340 0.0053 0.0290 0.0053 0.0225 0.0033 0.0855 0.0069 0.1070 −− − 101105 320 437 09 13 55 37 32 16..924748 0000 22 37 32 56..7233 13.82312.53532376437 +0.248+1.052 (left). +0.067 +0.690 +0.136 +0.581 +0.143 +0.561 +0.279 +1.141 7 11 3 7 0.0060 0.0048 0.0038 0.0103 0.0094 0.0181 0.0053 0.0039 0.0026 0.0036 0.0076 0.0045 − 105 815 13 40 02.492 − 00 02 18.76 11.451 +0.381 0.247 +0.267 +0.292 +0.559 61 51 0.0008 0.0007 0.0010 0.0005 0.0005 0.0006 101 L2 09 55 34.688 −00 18 50.10 15.770 +0.602− +0.082 +0.321 +0.304 +0.625 1 1 BD +2 2711 13 42 19.004− +01 30 18.68 10.369 0.163 0.699 0.072 0.095 0.168 94 78 0.0007··· 0.0006 ··· 0.0011 ··· 0.0005 ··· 0.0006 ··· 0.0008 ··· 101 404 09 55 40.673 00 18 22.23 13.459− +0.996− +0.697− +0.530− +0.500− +1.029 12 7 0.0040 0.0078 0.0095 0.0049 0.0032 0.0055 32376437 13 42 23.215− +01 30 25.71 10.584 +0.499 +0.005 +0.304 +0.301 +0.606 10 8 0.0016 0.0016 0.0028 0.0006 0.0009 0.0016 101 324 09 55 56.650 00 23 15.10 9.737 +1.161 +1.145 +0.591 +0.519 +1.109 60 47 0.0005 0.0008 0.0018 0.0006 0.0007 0.0010 − 101 408 09 56 08.001 00 12 41.28 14.785 +1.200 +1.347 +0.718 +0.603 +1.321 2 1 0.0240 0.0438 0.0170 0.0170 0.0120 0.0297 − 101 262 09 56 08.096 00 29 50.50 14.295 +0.784 +0.297 +0.440 +0.387 +0.827 4 2 0.0045 0.0160 0.0205 0.0075 0.0100 0.0035 − 101 326 09 56 08.101 00 27 10.94 14.923 +0.729 +0.227 +0.406 +0.375 +0.780 13 6 0.0078 0.0094 0.0128 0.0055 0.0111 0.0122 − 101 327 09 56 08.86 00 25 53.513.441+1.155+1.139+0.717+0.574+1.29028150.00320.00570.00980.00230.00170.0028 − 101 410 09 56 09.136 00 14 02.23 13.646 +0.546 0.063 +0.298 +0.326 +0.623 2 1 0.0085 0.0014 0.0021 0.0106 0.0035 0.0064 − − 101 413 09 56 14.009 00 11 54.86 12.583 +0.983 +0.716 +0.529 +0.497 +1.025 9 6 0.0023 0.0047 0.0103 0.0033 0.0040 0.0040 − 101 268 09 56 17.377 00 31 57.05 14.380 +1.531 +1.381 +1.040 +1.200 +2.237 11 5 0.0078 0.0199 0.0769 0.0048 0.0036 0.0045 − 101 330 09 56 20.587 00 27 22.12 13.723 +0.577 0.026 +0.346 +0.338 +0.684 28 14 0.0038 0.0038 0.0051 0.0028 0.0057 0.0064 − − 101 415 09 56 23.145 00 16 53.02 15.259 +0.577 0.008 +0.346 +0.350 +0.695 2 1 0.0028 0.0247 0.0021 0.0198 0.0134 0.0332 − − 101 270 09 56 27.023 00 35 44.15 13.711 +0.554 +0.055 +0.332 +0.306 +0.637 2 1 0.0014 0.0127 0.0049 0.0071 0.0014 − ··· 101 278 09 56 54.467 00 29 38.39 15.494 +1.041 +0.737 +0.596 +0.548 +1.144 2 1 0.0184 0.0226 0.0269 0.0198 0.0148 0.0346 − 101 L3 09 56 55.025 00 30 25.47 15.953 +0.637 0.033 +0.396 +0.395 +0.792 2 1 0.0233 0.0184 0.0707 0.0382 0.0488 0.0870 − − 101 281 09 57 05.02 00 31 43.211.576+0.812+0.415+0.453+0.412+0.86423150.00230.00130.00310.00130.00090.0013 − 101 L4 09 57 07.76 00 31 24.416.264+0.793+0.362+0.578+0.062+0.6442 10.01700.01410.00140.01910.26380.2807 − 101 L5 09 57 10.21 00 30 40.315.928+0.622+0.115+0.414+0.305+0.7202 10.01060.02830.08630.00780.01340.0212 − 101 421 09 57 16.107 00 17 18.20 13.180 +0.507 0.031 +0.327 +0.296 +0.623 2 1 0.0021 0.0021 0.0035 0.0021 0.0007 0.0014 − − 101 338 09 57 17.754 00 21 00.34 13.788 +0.634 +0.024 +0.350 +0.340 +0.691 2 1 0.0071 0.0071 0.0042 0.0021 0.0035 0.0014 − 101 339 09 57 18.389 00 25 01.80 14.449 +0.850 +0.501 +0.458 +0.398 +0.857 2 1 0.0099 0.0085 0.0099 0.0240 0.0042 0.0290 − 101 424 09 57 20.263 00 16 25.88 15.058 +0.764 +0.273 +0.429 +0.425 +0.855 2 1 0.0276 0.0389 0.0191 0.0226 0.0205 0.0431 − No. 5, 2009 UBVRI EQUATORIAL STANDARD STARS 4247

Figure 75. Field, 15′ on a side, of the sequence in the vicinity of the star Figure 77. Field, 15′ on a side, of the sequence in the vicinity of the star PG1323 086. PG1525 071. − − 18LNOTVl 137 Vol. LANDOLT 4198 Table 2 o ,2009 5, No. (Continued)Table 2 (Continued) Mean Error of the Mean Figure 76. Field, 15′ on a side, of the sequence in the vicinity of the star Figure 78. Field, 15′ on a side, of the sequence in the vicinity of the star Star α (J2000.0) δ (J2000.0) VBPG1407VU013. BVRRIVInmPG1528+062. V BVUMean ErrorBV of the MeanRRIVI − − − − − − − − − − − (1)Star α (J2000.0) (2)δ (J2000.0) (3)VB (4) (5)VU (6)BV (7)RR (8)IV (9)Inm (10) (11) V (12) B (13)VU (14)BV (15)RR (16)IV (17)I − − − − − − − − − − HD(1) 121968 13 58 (2) 51.167 02 54 (3) 52.33 10.256 (4)0.185 (5)0.915 (6)0.074 (7)0.100 (8)0.173 (9) (10) 90 (11) 75 0.0006 (12) 0.0006 (13) 0.0010 (14) 0.0004 (15) 0.0005 (16) 0.0006 (17) − − − − − − PG140799 447013B 1407 1056 2406..686181 0001 20 27 42 16..3752 12.4719.419 +0.9700.068 +0.6650.220 +0.5370.031 +0.5050.041 +1.0370.073 108 17 97 10 0.0006 0.0013 0.0005 0.0016 0.0008 0.0020 0.0004 0.0012 0.0004 0.0012 0.0006 0.0016 − −− − − − − − PG1407100 241013 1408 1052 2534..049915 0001 39 30 48 16..9661 10.140 13.758 +0.1570.259 +0.1061.133 +0.0780.119 +0.0850.151 +0.1620.272 67 21 57 12 0.00060.0012 0.00050.0017 0.00090.0033 0.00040.0015 0.00040.0033 0.00040.0043 − − − − − − − PG1407 013C 14 10 28.013 − 01 25 03.05 12.462 +0.805 +0.298 +0.464 +0.448 +0.914 17 10 0.0015 0.0013 0.0031 0.0010 0.0016 0.0014 100 162− 08 53 14.418 −00 43 30.35 9.150 +1.276 +1.495 +0.649 +0.552 +1.202 86 67 0.0009 0.0008 0.0012 0.0004 0.0006 0.0006 PG1407 013A 14 10 29.547 − 01 29 10.18 14.661 +1.151 +1.049 +0.617 +0.569 +1.178 21 10 0.0023 0.0030 0.0116 0.0018 0.0018 0.0034 100 267− 08 53 17.212 −00 41 29.35 13.027 +0.485 0.062 +0.307 +0.302 +0.608 3 3 0.0069 0.0023 0.0133 0.0075 0.0040 0.0040 PG1407 013D 14 10 34.083 − 01 27 14.00 14.872 +0.891− +0.420 +0.496 +0.472 +0.967 14 9 0.0024 0.0026 0.0104 0.0020 0.0058 0.0063 100 269− 08 53 18.464 −00 41 09.81 12.350 +0.547 0.040 +0.335 +0.331 +0.666 3 3 0.0035 0.0029 0.0150 0.0035 0.0029 0.0017 PG1407 013E 14 10 35.721 − 01 26 31.42 15.182 +0.883− +0.600 +0.496 +0.417 +0.915 9 6 0.0036 0.0042 0.0144 0.0044 0.0068 0.0074 100 280− 08 53 35.477 −00 36 41.16 11.799 +0.493 0.001 +0.295 +0.291 +0.588 72 61 0.0007 0.0007 0.0010 0.0006 0.0006 0.0009 106 1024 14 40 06.997− +00 01 45.11 11.599 +0.332− +0.085 +0.196 +0.195 +0.39018 35 27 0.0051 0.0022 0.0029 0.0019 0.0014 0.0029 100 394 08 53 54.515 00 32 22.08 11.384 +1.317 +1.457 +0.705 +0.636 +1.341 9 5 0.0080 0.0040 0.0087 0.0023 0.0027 0.0030 106 700 14 40 50.944 − 00 23 36.82 9.786 +1.364 +1.580 +0.730 +0.643 +1.374 88 77 0.0008 0.0006 0.0014 0.0005 0.0006 0.0008 PG0918+029D 09 21 21.936− +02 47 28.28 12.272 +1.044 +0.821 +0.575 +0.535 +1.108 19 11 0.0021 0.0030 0.0071 0.0016 0.0018 0.0018 106 575 14 41 38.499 00 26 01.82 9.341 +1.306 +1.485 +0.676 +0.587 +1.268 39 30 0.0007 0.0007 0.0027 0.0005 0.0005 0.0006 PG0918+029 09 21 28.217− +02 46 02.27 13.327 0.271 1.081 0.129 0.159 0.288 45 27 0.0024 0.0024 0.0030 0.0019 0.0055 0.0063 − − − − − 106PG0918+029B 485 1409 4421 1432..924083 +0200 47 37 59 06..0869 13.963 9.477 +0.765 +0.378 +0.3660.052 +0.417 +0.233 +0.370 +0.236 +0.787 +0.468 20 47 11 36 0.0034 0.0009 0.0072 0.0007 0.0159 0.0010 0.0025 0.0004 0.0045 0.0004 0.0056 0.0006

− − UBVRI PG1514+034PG0918+029A 1509 1721 1435..107269 +02 +03 46 10 19 27..4392 14.490 13.997 +0.5360.009 0.0320.955 +0.325 +0.087 +0.336 +0.126 +0.661 +0.212 29 6 14 3 0.0033 0.0078 0.0058 0.0082 0.0095 0.0102 0.0039 0.0029 0.0076 0.0065 0.0085 0.0073 − −− PG1525PG0918+029C071 1509 2821 1142..30657 +0207 46 16 37 32..07715.046 13.537 +0.6310.211 +0.0871.177 +0.3670.068 +0.357 +0.012 +0.7220.151 21 20 10 13 0.00200.0027 0.00280.0005 0.00480.0027 0.00150.0020 0.00220.0020 0.00280.0071 − − − − − − PG1525 071D 15 28 12.00 07 16 39.116.300+0.393+0.224+0.405+0.343+0.7561580.00210.07140.03160.01080.01960.0085 BD 12− 2918 09 31 19.37 −13 29 19.310.067+1.501+1.166+1.067+1.318+2.3851390.00250.00280.00750.00390.00220.0042 PG1525− 071A 15 28 13.416 − 07 16 01.03 13.506 +0.773 +0.282 +0.437 +0.421 +0.862 15 8 0.0008 0.0015 4195 0.0019 0.0006 0.0024 0.0026 STARS STANDARD EQUATORIAL PG0942−029D 09 45 08.637 −03 05 54.45 13.683 +0.576 +0.064 +0.341 +0.329 +0.668 13 8 0.0009 0.0029 0.0054 0.0015 0.0039 0.0044 PG1525−071B 15 28 14.39 − 07 16 13.216.392+0.729+0.141+0.450+0.387+0.9061780.00390.00430.00970.00370.00660.0066 PG0942−029A 09 45 09.90 −03 10 14.214.738+0.888+0.552+0.563+0.474+1.0351680.00210.00210.00650.00230.00410.0050 PG1525−071C 15 28 16.502 − 07 14 30.36 13.519 +1.116 +1.073 +0.593 +0.509 +1.096 16 9 0.0007 0.0028 0.0052 0.0010 0.0015 0.0012 PG0942−029B 09 45 11.574 −03 06 58.11 14.105 +0.573 +0.014 +0.353 +0.341 +0.693 13 8 0.0022 0.0014 0.0043 0.0018 0.0036 0.0041 PG1528+062B− 15 30 39.542− +06 01 12.98 11.989 +0.593 +0.005 +0.364 +0.344 +0.711 1 1 PG0942 029 09 45 11.85 03 09 21.014.012 0.298 1.177 0.132 0.165 0.296 21 13 0.0022··· 0.0025 ··· 0.0031 ··· 0.0026 ··· 0.0058 ··· 0.0067 ··· PG1528+062A− 15 30 49.092− +06 01 24.09 15.553− +0.830− +0.356− +0.433− +0.389− +0.824 1 1 PG0942 029C 09 45 14.386 03 06 40.28 14.950 +0.803 +0.338 +0.488 +0.395 +0.884 16 8 0.0024··· 0.0024 ··· 0.0049 ··· 0.0021 ··· 0.0045 ··· 0.0053 ··· PG1528+062− 15 30 49.93− +06 00 56.214.767 0.252 1.091 0.111 0.182 0.296 1 1 101 315 09 54 51.298 00 27 31.09 11.249 +1.153− +1.056− +0.612− +0.559− − +1.172 19 11 0.0037··· 0.0018 ··· 0.0067 ··· 0.0016 ··· 0.0011 ··· 0.0021 ··· − PG1528+062C101 316 1509 3054 5552..034616 +0600 18 00 34 09..5159 11.552 13.477 +0.493 +0.644 +0.032 +0.074 +0.293 +0.357 +0.291 +0.340 +0.584 +0.699 17 1 10 1 0.0027 0.0024 0.0036 0.0019 0.0029 0.0032 − ··· ··· ··· ··· ··· ··· PG1530+057A101 L1 1509 3355 1029..09224 +0500 21 33 42 42..616.501+0.75793 13.711 +0.829 +0.4140.104 +0.421 +0.473 +0.527 +0.412 +0.947 +0.886 4 1 1 1 0.0310 0.0340 0.0290 0.0225 0.0855 0.1070 − − ··· ··· ··· ··· ··· ··· PG1530+057101 320 1509 3355 1032..924737 +0500 22 32 32 26..7288 13.823 14.211 +1.052 +0.151 +0.6900.789 +0.581 +0.162 +0.561 +0.036 +1.141 +0.199 11 1 7 1 0.0048 0.0103 0.0181 0.0039 0.0036 0.0045 − − ··· ··· ··· ··· ··· ··· PG1530+057B101 L2 1509 3355 1734..688446 +0500 18 33 50 46..1029 15.770 12.842 +0.602 +0.745 +0.082 +0.325 +0.321 +0.423 +0.304 +0.376 +0.625 +0.799 1 1 1 1 − ······ ··· ··· ··· ··· ··· ··· ··· ··· ··· ··· 107101 544404 1509 3655 4840..673097 0000 18 15 22 07..2307 13.459 9.036 +0.996 +0.399 +0.697 +0.156 +0.530 +0.232 +0.500 +0.227 +1.029 +0.458 12 54 39 7 0.0040 0.0010 0.0078 0.0006 0.0095 0.0011 0.0049 0.0006 0.0032 0.0006 0.0055 0.0008 −− 107101 970324 1509 3755 2556..650830 +0000 23 18 15 33..1082 10.9399.737 +1.161 +1.596 +1.145 +1.750 +0.591 +1.142 +0.519 +1.435 +1.109 +2.574 60 57 47 47 0.0005 0.0074 0.0008 0.0017 0.0018 0.0061 0.0006 0.0020 0.0007 0.0033 0.0010 0.0040 − 107101 568408 1509 3756 5208..001713 0000 12 17 41 17..2851 14.785 13.054 +1.200 +1.149 +1.347 +0.862 +0.718 +0.625 +0.603 +0.595 +1.321 +1.217 15 2 1 7 0.0240 0.0015 0.0438 0.0028 0.0170 0.0039 0.0170 0.0021 0.0120 0.0028 0.0297 0.0028 −− 107101 1006262 1509 3856 3308..096353 +0000 29 14 50 19..5011 14.295 11.713 +0.784 +0.766 +0.297 +0.278 +0.440 +0.442 +0.387 +0.420 +0.827 +0.863 81 4 72 2 0.0045 0.0006 0.0160 0.0009 0.0205 0.0018 0.0075 0.0005 0.0100 0.0007 0.0035 0.0008 − 107101 347326 1509 3856 3508..101770 0000 27 35 10 57..9469 14.923 9.446 +0.729 +1.294 +0.227 +1.302 +0.406 +0.712 +0.375 +0.652 +0.780 +1.365 13 33 26 6 0.0078 0.0011 0.0094 0.0009 0.0128 0.0015 0.0055 0.0007 0.0111 0.0007 0.0122 0.0011 −− 107101 720327 1509 3856 3608..86978 0000 25 02 53 24..513.441+1.155+1.139+0.717+0.574+1.29028150.00320.00570.00980.00230.00170.002892 13.121 +0.599 +0.088 +0.374 +0.355 +0.731 2 1 0.0057 0.0028 0.0106 0.0099 0.0028 0.0078 −− 107101 456410 1509 3856 4209..136735 0000 14 19 02 47..2302 13.646 12.919 +0.546 +0.921 +0.5890.063 +0.298 +0.537 +0.326 +0.478 +0.623 +1.015 2 20 1 10 0.0085 0.0020 0.0014 0.0029 0.0021 0.0045 0.0106 0.0020 0.0035 0.0025 0.0064 0.0036 −− − 107101 351413 1509 3856 4514..009760 0000 11 32 54 06..8630 12.583 12.342 +0.983 +0.562 +0.7160.005 +0.529 +0.351 +0.497 +0.358 +1.025 +0.708 25 9 14 6 0.0023 0.0020 0.0047 0.0024 0.0103 0.0040 0.0033 0.0016 0.0040 0.0022 0.0040 0.0026 −− − 107101 457268 1509 3856 4617..377763 0000 31 20 57 15..0517 14.380 14.910 +1.531 +0.792 +1.381 +0.350 +1.040 +0.494 +1.200 +0.469 +2.237 +0.964 11 2 5 1 0.0078 0.0021 0.0199 0.0035 0.0769 0.0099 0.0048 0.0028 0.0036 0.0064 0.0045 0.0092 −− 107101 458330 1509 3856 5020..587219 0000 27 24 22 26..1245 13.723 11.676 +0.577 +1.214 +1.1890.026 +0.346 +0.667 +0.338 +0.602 +0.684 +1.274 28 2 14 1 0.0038 0.0042 0.0038 0.0057 0.0051 0.0049 0.0028 0.0028 0.0057 0.0007 0.0064 0.0035 −− − 107101 592415 1509 3856 5023..145382 0000 16 17 53 09..0217 15.259 11.847 +0.577 +1.318 +1.3800.008 +0.346 +0.709 +0.350 +0.647 +0.695 +1.357 2 9 1 5 0.0028 0.0033 0.0247 0.0047 0.0021 0.0133 0.0198 0.0013 0.0134 0.0023 0.0332 0.0020 −− − 107101 459270 1509 3856 5027..023812 0000 35 22 44 33..1577 13.711 12.284 +0.554 +0.900 +0.055 +0.427 +0.332 +0.525 +0.306 +0.517 +0.637 +1.045 2 2 1 1 0.00140.0014 0.0106 0.0127 0.0099 0.0049 0.0028 0.0071 0.0007 0.0014 0.0035 −− ··· 107101 212278 1509 3856 5654..467067 0000 29 45 38 31..3971 15.494 13.383 +1.041 +0.683 +0.737 +0.135 +0.596 +0.404 +0.548 +0.411 +1.144 +0.818 2 2 1 1 0.0184 0.0064 0.0226 0.0106 0.0269 0.0198 0.0198 0.0071 0.0148 0.0085 0.0346 0.0148 −− 107101 215L3 1509 3856 5755..025650 0000 30 43 25 06..4759 15.953 16.046 +0.637 +0.115 0.0330.082 +0.3960.032 +0.3950.475 +0.7920.511 2 3 1 2 0.0233 0.0266 0.0184 0.0312 0.0707 0.0092 0.0382 0.0935 0.0488 0.2991 0.0870 0.3943 −− −− − − − 107101 213281 1509 3857 5705..02671 0000 31 44 43 15..211.576+0.812+0.415+0.453+0.412+0.86423150.00230.00130.00310.00130.00090.001306 14.262 +0.802 +0.261 +0.531 +0.509 +1.038 1 1 −− ··· ··· ··· ··· ··· ··· 107101 357L4 1509 3957 0507..76469 0000 31 39 24 12..416.264+0.793+0.362+0.578+0.062+0.644216 14.418 +0.675 +0.025 +0.416 +0.421 +0.840 2 10.01700.01410.00140.01910.26380.2807 1 0.0035 0.0057 0.0120 0.0233 0.0113 −− ··· 101 L5 09 57 10.21 00 30 40.315.928+0.622+0.115+0.414+0.305+0.7202 10.01060.02830.08630.00780.01340.0212 107 359 15 39 09.04 − 00 35 38.612.797+0.580 0.124 +0.379 +0.381 +0.759 6 3 0.0049 0.0069 0.0118 0.0029 0.0033 0.0053 101 421 09 57 16.107 −00 17 18.20 13.180 +0.507 −0.031 +0.327 +0.296 +0.623 2 1 0.0021 0.0021 0.0035 0.0021 0.0007 0.0014 107 599 15 39 09.457 − 00 14 28.74 14.675 +0.698− +0.243 +0.433 +0.438 +0.869 17 7 0.0082 0.0121 0.0061 0.0053 0.0121 0.0155 101 338 09 57 17.754 −00 21 00.34 13.788 +0.634 +0.024 +0.350 +0.340 +0.691 2 1 0.0071 0.0071 0.0042 0.0021 0.0035 0.0014 107 600 15 39 10.065 − 00 15 51.15 14.884 +0.503 +0.049 +0.339 +0.361 +0.700 9 4 0.0170 0.0130 0.0227 0.0097 0.0147 0.0203 − 107101 601339 1509 3957 1318..38988 0000 25 13 01 28..80014.646+1.412+1.265+0.923+0.835+1.76133130.00450.00730.02470.00350.00310.0038 14.449 +0.850 +0.501 +0.458 +0.398 +0.857 2 1 0.0099 0.0085 0.0099 0.0240 0.0042 0.0290 −− 101 424 09 57 20.263 00 16 25.88 15.058 +0.764 +0.273 +0.429 +0.425 +0.855 2 1 0.0276 0.0389 0.0191 0.0226 0.0205 0.0431 − 18LNOTVl 137 Vol. LANDOLT 4198 Table 2 (Continued)

Mean Error of the Mean Star α (J2000.0) δ (J2000.0) VBVUBVRRIVInm V BVUBVRRIVI − − − − − − − − − − (1) (2) (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) HD 121968 13 58 51.167 02 54 52.33 10.256 0.185 0.915 0.074 0.100 0.173 90 75 0.0006 0.0006 0.0010 0.0004 0.0005 0.0006 − − − − − − PG1407 013B 14 10 24.181 01 27 16.52 12.471 +0.970 +0.665 +0.537 +0.505 +1.037 17 10 0.0013 0.0016 0.0020 0.0012 0.0012 0.0016 − − PG1407 013 14 10 25.915 01 30 16.61 13.758 0.259 1.133 0.119 0.151 0.272 21 12 0.0012 0.0017 0.0033 0.0015 0.0033 0.0043 − − − − − − − PG1407 013C 14 10 28.013 01 25 03.05 12.462 +0.805 +0.298 +0.464 +0.448 +0.914 17 10 0.0015 0.0013 0.0031 0.0010 0.0016 0.0014 − − PG1407 013A 14 10 29.547 01 29 10.18 14.661 +1.151 137 Vol. +1.049 +0.617 +0.569 +1.178 21 10 0.0023 LANDOLT 0.0030 0.0116 0.0018 0.0018 0.0034 4198 − − PG1407 013D 14 10 34.083 01 27 14.00 14.872 +0.891 +0.420 +0.496Table +0.472 2 +0.967 14 9 0.0024 0.0026 0.0104 0.0020 0.0058 0.0063 − − (Continued) PG1407 013E 14 10 35.721 01 26 31.42 15.182 +0.883 +0.600 +0.496 +0.417 +0.915 9 6 0.0036 0.0042 0.0144 0.0044 0.0068 0.0074 − − 106 1024 14 40 06.997 +00 01 45.11 11.599 +0.332 +0.085 +0.196 +0.195 +0.390 35 27 0.0051 0.0022Mean 0.0029 Error of 0.0019 the Mean 0.0014 0.0029 106 700 14 40 50.944 00 23 36.82 9.786 +1.364 +1.580 +0.730 +0.643 +1.374 88 77 0.0008 0.0006 0.0014 0.0005 0.0006 0.0008 Star α (J2000.0) −δ (J2000.0) VBVUBVRRIVInm V BVUBVRRIVI 106 575 14 41 38.499 00 26 01.82 9.341 +1.306− +1.485− +0.676− +0.587− +1.268− 39 30 0.0007 0.0007− 0.0027− 0.0005− 0.0005− 0.0006− (1) (2)− (3) (4) (5) (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) 106 485 14 44 14.083 00 37 06.69 9.477 +0.378 0.052 +0.233 +0.236 +0.468 47 36 0.0009 0.0007 0.0010 0.0004 0.0004 0.0006 HD 121968 13 58 51.167 −02 54 52.33 10.256 0.185 −0.915 0.074 0.100 0.173 90 75 0.0006 0.0006 0.0010 0.0004 0.0005 0.0006 PG1514+034 15 17 14.269− +03 10 27.92 13.997 −0.009 −0.955− +0.087− +0.126− +0.212 6 3 0.0078 0.0082 0.0102 0.0029 0.0065 0.0073 PG1407 013B 14 10 24.181 01 27 16.52 12.471− +0.970− +0.665 +0.537 +0.505 +1.037 17 10 0.0013 0.0016 0.0020 0.0012 0.0012 0.0016 PG1525−071 15 28 11.57 −07 16 32.715.046 0.211 1.177 0.068 +0.012 0.151 20 13 0.0027 0.0005 0.0027 0.0020 0.0020 0.0071 PG1407−013 14 10 25.915 −01 30 16.61 13.758 −0.259 −1.133 − 0.119 0.151 − 0.272 21 12 0.0012 0.0017 0.0033 0.0015 0.0033 0.0043 PG1525−071D 15 28 12.00 −07 16 39.116.300+0.393+0.224+0.405+0.343+0.7561580.00210.07140.03160.01080.01960.0085− − − − − PG1407−013C 14 10 28.013 −01 25 03.05 12.462 +0.805 +0.298 +0.464 +0.448 +0.914 17 10 0.0015 0.0013 0.0031 0.0010 0.0016 0.0014 PG1525−071A 15 28 13.416 −07 16 01.03 13.506 +0.773 +0.282 +0.437 +0.421 +0.862 15 8 0.0008 0.0015 0.0019 0.0006 0.0024 0.0026 PG1407−013A 14 10 29.547 −01 29 10.18 14.661 +1.151 +1.049 +0.617 +0.569 +1.178 21 10 0.0023 0.0030 0.0116 0.0018 0.0018 0.0034 PG1525−071B 15 28 14.39 −07 16 13.216.392+0.729+0.141+0.450+0.387+0.9061780.00390.00430.00970.00370.00660.0066 PG1407−013D 14 10 34.083 −01 27 14.00 14.872 +0.891 +0.420 +0.496 +0.472 +0.967 14 9 0.0024 0.0026 0.0104 0.0020 0.0058 0.0063 PG1525−071C 15 28 16.502 −07 14 30.36 13.519 +1.116 +1.073 +0.593 +0.509 +1.096 16 9 0.0007 0.0028 0.0052 0.0010 0.0015 0.0012 PG1407−013E 14 10 35.721 −01 26 31.42 15.182 +0.883 +0.600 +0.496 +0.417 +0.915 9 6 0.0036 0.0042 0.0144 0.0044 0.0068 0.0074 No. 5, 2009 PG1528+062B− 15 30 39UBVRI.542EQUATORIAL− +06 01 12.98 11.989 STANDARD +0.593 STARS +0.005 +0.364 +0.344 +0.711 1 1 4249 106 1024 14 40 06.997 +00 01 45.11 11.599 +0.332 +0.085 +0.196 +0.195 +0.390 35 27··· 0.0051 ··· 0.0022 ··· 0.0029 ··· 0.0019 ··· 0.0014 ··· 0.0029 PG1528+062A 15 30 49.092 +06 01 24.09 15.553 +0.830 +0.356 +0.433 +0.389 +0.824 1 1 106 700 14 40 50.944 00 23 36.82 9.786 +1.364 +1.580 +0.730 +0.643 +1.374 88 77··· 0.0008 ··· 0.0006 ··· 0.0014 ··· 0.0005 ··· 0.0006 ··· 0.0008 PG1528+062 15 30 49.93− +06 00 56.214.767 0.252 1.091 0.111 0.182 0.296 1 1 106 575 14 41 38.499 00 26 01.82 9.341− +1.306− +1.485− +0.676− +0.587− +1.268 39 30··· 0.0007 ··· 0.0007 ··· 0.0027 ··· 0.0005 ··· 0.0005 ··· 0.0006 − PG1528+062C 15 30 55.616 +06 00 09.59 13.477 +0.644 +0.074 +0.357 +0.340 +0.699 1 1 ··· ··· ··· ··· ··· ··· 106PG1530+057A 485 15 14 33 44 10 14.224083 +0500 3337 42 06..9369 13.711 9.477 +0.829 +0.378 +0.4140.052 +0.473 +0.233 +0.412 +0.236 +0.886 +0.468 1 47 1 36 0.0009 0.0007 0.0010 0.0004 0.0004 0.0006 − − ··· ··· ··· ··· ··· ··· PG1514+034PG1530+057 15 15 33 17 10 14.737269 +05 +03 32 10 26 27..8892 14.211 13.997 +0.1510.009 0.7890.955 +0.162 +0.087 +0.036 +0.126 +0.199 +0.212 1 6 1 3 0.0078 0.0082 0.0102 0.0029 0.0065 0.0073 − −− ··· ··· ··· ··· ··· ··· PG1525PG1530+057B071 15 15 33 28 17 11.44657 +0507 3316 46 32..29715.046 12.842 +0.7450.211 +0.3251.177 +0.4230.068 +0.376 +0.012 +0.7990.151 20 1 113 0.0027 0.0005 0.0027 0.0020 0.0020 0.0071 − − − − − − ··· ··· ··· ··· ··· ··· PG1525107 544071D 15 15 36 28 48 12.09700 0007 15 16 07 39..07116.300+0.393+0.224+0.405+0.343+0.7561580.00210.07140.03160.01080.01960.0085 9.036 +0.399 +0.156 +0.232 +0.227 +0.458 54 39 0.0010 0.0006 0.0011 0.0006 0.0006 0.0008 − − PG1525107 970071A 15 15 37 28 25 13.830416 +0007 1816 33 01..8203 10.939 13.506 +1.596 +0.773 +1.750 +0.282 +1.142 +0.437 +1.435 +0.421 +2.574 +0.862 57 15 47 8 0.0074 0.0008 0.0017 0.0015 0.0061 0.0019 0.0020 0.0006 0.0033 0.0024 0.0040 0.0026 − − PG1525107 568071B 15 15 37 28 52 14.71339 0007 17 16 17 13..51216.392+0.729+0.141+0.450+0.387+0.9061780.00390.00430.00970.00370.00660.0066 13.054 +1.149 +0.862 +0.625 +0.595 +1.217 15 7 0.0015 0.0028 0.0039 0.0021 0.0028 0.0028 − − PG1525107 1006071C 15 15 38 28 33 16.353502 +0007 14 19 30..1136 11.713 13.519 +0.766 +1.116 +0.278 +1.073 +0.442 +0.593 +0.420 +0.509 +0.863 +1.096 81 16 72 9 0.0006 0.0007 0.0009 0.0028 0.0018 0.0052 0.0005 0.0010 0.0007 0.0015 0.0008 0.0012 − − PG1528+062B107 347 15 15 38 30 35 39.770542 +0600 35 01 57 12..6998 11.989 9.446 +1.294 +0.593 +1.302 +0.005 +0.712 +0.364 +0.652 +0.344 +1.365 +0.711 33 1 26 1 0.0011 0.0009 0.0015 0.0007 0.0007 0.0011 − ··· ··· ··· ··· ··· ··· PG1528+062A107 720 15 15 38 30 36 49.978092 +0600 02 01 24 24..9209 13.121 15.553 +0.599 +0.830 +0.088 +0.356 +0.374 +0.433 +0.355 +0.389 +0.731 +0.824 2 1 1 1 0.0057 0.0028 0.0106 0.0099 0.0028 0.0078 − ··· ··· ··· ··· ··· ··· PG1528+062 15 30 49.93 +06 00 56.214.7670.252 1.091 0.111 0.182 0.296 1 1 107 456 15 38 42.735 00 19 47.02 12.919− +0.921− +0.589− +0.537− +0.478− +1.015 20 10 0.0020··· 0.0029 ··· 0.0045 ··· 0.0020 ··· 0.0025 ··· 0.0036 ··· − PG1528+062C107 351 15 15 38 30 45 55.760616 +0600 32 00 06 09..3059 12.342 13.477 +0.562 +0.644 +0.0740.005 +0.351 +0.357 +0.358 +0.340 +0.708 +0.699 25 1 14 1 0.0020 0.0024 0.0040 0.0016 0.0022 0.0026 − − ··· ··· ··· ··· ··· ··· PG1530+057A107 457 15 15 38 33 46 10.763224 +0500 20 33 15 42..1793 14.910 13.711 +0.792 +0.829 +0.350 +0.414 +0.494 +0.473 +0.469 +0.412 +0.964 +0.886 2 1 1 1 0.0021 0.0035 0.0099 0.0028 0.0064 0.0092 − ··· ··· ··· ··· ··· ··· PG1530+057107 458 15 15 38 33 50 10.219737 +0500 24 32 26 26..4588 11.676 14.211 +1.214 +0.151 +1.1890.789 +0.667 +0.162 +0.602 +0.036 +1.274 +0.199 2 1 1 1 0.0042 0.0057 0.0049 0.0028 0.0007 0.0035 − − ··· ··· ··· ··· ··· ··· PG1530+057B107 592 15 15 38 33 50 17.382446 +0500 17 33 09 46..1729 11.847 12.842 +1.318 +0.745 +1.380 +0.325 +0.709 +0.423 +0.647 +0.376 +1.357 +0.799 9 1 5 1 0.0033 0.0047 0.0133 0.0013 0.0023 0.0020 − 2009 5, No. 107 459 15 38 50.812 00 22 33.77 12.284 +0.900 +0.427 +0.525 +0.517 +1.045 2 1 0.0014··· 0.0106 ··· 0.0099 ··· 0.0028 ··· 0.0007 ··· 0.0035 ··· 107 544 15 36 48.097 −00 15 07.07 9.036 +0.399 +0.156 +0.232Table +0.227 2 +0.458 54 39 0.0010 0.0006 0.0011 0.0006 0.0006 0.0008 107 212 15 38 56.067 −00 45 31.71 13.383 +0.683 +0.135 +0.404 +0.411 +0.818 2 1 0.0064 0.0106 0.0198 0.0071 0.0085 0.0148 107 970 15 37 25.830− +00 18 33.82 10.939 +1.596 +1.750 +1.142(Continued) +1.435 +2.574 57 47 0.0074 0.0017 0.0061 0.0020 0.0033 0.0040 Figure 81. Field,107 10′ 215on a side, of the 15 star 38 57 HD.650 121968.00 43 06.59 16.046 +0.115 Figure0.082 86. Field,0.032 10′ on0.475 a side, of SA0.511 107 SF2. 3 2 0.0266 0.0312 0.0092 0.0935 0.2991 0.3943 107 568 15 37 52.713 −00 17 17.51 13.054 +1.149− +0.862− +0.625− +0.595− +1.217 15 7 0.0015 0.0028 0.0039 0.0021 0.0028 0.0028 107 213 15 38 57.671 −00 44 15.06 14.262 +0.802 +0.261 +0.531 +0.509 +1.038 1 1 Mean Error of the Mean 2009 5, No. 107 1006 15 38 33.353− +00 14 19.11 11.713 +0.766 +0.278 +0.442 +0.420 +0.863 81 72··· 0.0006 ··· 0.0009 ··· 0.0018 ··· 0.0005 ··· 0.0007 ··· 0.0008 107 357 15 39 05.469 00 39 12.16 14.418 +0.675 +0.025 +0.416Table +0.421 2 +0.840 2 1 0.0035 0.0057 0.0120 0.0233 0.0113 Star107 347α 15(J2000.0) 38 35.770 −δ00(J2000.0) 35 57.69 9.446VB +1.294VU +1.302BV +0.712RR +0.652IV +1.365Inm 33 26··· V 0.0011 B 0.0009VUBV 0.0015RR 0.0007IV 0.0007I 0.0011 − − − − (Continued)− − − − − − − (1)107 359720 15 15 39 38 (2) 09 36.04978 00 35 02 (3) 38 24..612.797+0.58092 13.121 (4) +0.599 (5) +0.0880.124 (6) +0.379 +0.374 (7) +0.381 +0.355 (8) +0.759 +0.731 (9) 6 (10) 2 3 (11) 1 0.0049 0.0057(12) 0.0069 (13)0.0028 0.0118 (14) 0.0106 0.0029 (15) 0.0099 0.0033 (16) 0.0028 0.0053 (17) 0.0078 − − 99107 447 599 07 15 56 39 0609..686457 0000 20 14 4228..3774 14.675 9.419 +0.6980.068 +0.2430.220 +0.4330.031 +0.4380.041 +0.8690.073 108 17 97 7 0.0082 0.0006 0.0121 0.0005Mean 0.0061 0.0008 Error of 0.0053 the 0.0004 Mean 0.0121 0.0004 0.0155 0.0006 107 456 15 38 42.735 −−00 19 47.02 12.919− +0.921− +0.589− +0.537− +0.478− +1.015 20 10 0.0020 0.0029 0.0045 0.0020 0.0025 0.0036 100Star107 241 600 08 15α (J2000.0) 52 39 3410..049065 −δ0000(J2000.0) 39 15 4851..9615 10.14014.884VB +0.503 +0.157VU +0.049 +0.106BV +0.339 +0.078RR +0.361 +0.085IV +0.700 +0.162Inm 9 67 4 57 0.0170 0.0006 V 0.0130 B 0.0005VU 0.0227 0.0009BV 0.0097 0.0004RR 0.0147 0.0004IV 0.0203 0.0004I 107 351 15 38 45.760 −−00 32 06.30 12.342 +0.562− 0.005− +0.351− +0.358− +0.708− 25 14 0.0020− 0.0024− 0.0040− 0.0016− 0.0022− 0.0026 (1)107 601 15 39 (2) 13.88 −00 (3) 13 28.014.646+1.412+1.265+0.923+0.835+1.76133130.00450.00730.02470.00350.00310.0038 (4) (5)− (6) (7) (8) (9) (10) (11) (12) (13) (14) (15) (16) (17) 100107 162 457 08 15 53 38 14 46..418763 −0000 43 20 30 15..3517 14.910 9.150 +1.276 +0.792 +1.495 +0.350 +0.649 +0.494 +0.552 +0.469 +1.202 +0.964 86 2 67 1 0.0009 0.0021 0.0008 0.0035 0.0012 0.0099 0.0004 0.0028 0.0006 0.0064 0.0006 0.0092 −− 100107 267 602 458 15 08 15 39 53 38 18 17 50..878212219 0000 1541 24 29 29 26..943545 12.116 13.027 11.676 +0.991 +0.485 +1.214 +0.585 +1.1890.062 +0.545 +0.307 +0.667 +0.531 +0.302 +0.602 +1.074 +0.608 +1.274 17 3 2 9 3 1 0.0027 0.0069 0.0042 0.0029 0.0023 0.0057 0.0070 0.0133 0.0049 0.0015 0.0075 0.0028 0.0022 0.0040 0.0007 0.0032 0.0040 0.0035 −− − 100107 269 611 592 15 08 15 39 53 38 35 18 50..077464382 0000 1241 17 35 09 09..768117 14.329 12.350 11.847 +0.890 +0.547 +1.318 +0.455 +1.3800.040 +0.520 +0.335 +0.709 +0.447 +0.331 +0.647 +0.968 +0.666 +1.357 4 3 9 2 3 5 0.0065 0.0035 0.0033 0.0085 0.0029 0.0047 0.0165 0.0150 0.0133 0.0090 0.0035 0.0013 0.0105 0.0029 0.0023 0.0170 0.0017 0.0020 107 612 15 39 35 .427 −−00 15 07.45 14.256 +0.896 +0.296− +0.551 +0.530 +1.081 2 1 0.0057 0.0014 0.0035 0.0035 0.0007 0.0021 100107 280 459 08 15 53 38 35 50..477812 −0000 36 22 41 33..1677 11.799 12.284 +0.493 +0.900 +0.4270.001 +0.295 +0.525 +0.291 +0.517 +0.588 +1.045 72 2 61 1 0.0007 0.0014 0.0007 0.0106 0.0010 0.0099 0.0006 0.0028 0.0006 0.0007 0.0009 0.0035 107 614 15 39 41 .132 −−00 13 10.80 13.926 +0.622 +0.033− +0.361 +0.370 +0.73219 4 2 0.0065 0.0170 0.0150 0.0040 0.0130 0.0090 100107 394 212 08 15 53 38 54 56..515067 −0000 32 45 22 31..0871 11.384 13.383 +1.317 +0.683 +1.457 +0.135 +0.705 +0.404 +0.636 +0.411 +1.341 +0.818 9 2 5 1 0.0080 0.0064 0.0040 0.0106 0.0087 0.0198 0.0023 0.0071 0.0027 0.0085 0.0030 0.0148 107 626 15 40 05 .349 −−00 17 28.95 13.468 +1.000 +0.728 +0.600 +0.527 +1.126 24 12 0.0045 0.0082 0.0118 0.0024 0.0022 0.0035 PG0918+029D107 215 09 15 21 38 21 57..936650 − +0200 47 43 28 06..2859 12.272 16.046 +1.044 +0.115 +0.8210.082 +0.5750.032 +0.5350.475 +1.1080.511 3 19 2 11 0.0266 0.0021 0.0312 0.0030 0.0092 0.0071 0.09350.0016 0.00180.2991 0.0018 0.3943 107 627 15 40 07 .462 −00 17 22.68 13.349 +0.779 +0.226− +0.465− +0.454− +0.918− 24 12 0.0055 0.0047 0.0049 0.0022 0.0027 0.0037 PG0918+029107 213 09 15 21 38 28 57..217671 − +0200 46 44 02 15..2706 13.327 14.262 +0.8020.271 +0.2611.081 0.129 +0.5310.159 +0.5090.288 +1.038 45 1 27 1 0.0024 0.0024 0.0030 0.0019 0.0055 0.0063 − − − − − − ··· ··· ··· ··· ··· ··· PG0918+029B107 484 357 15 09 15 40 21 39 16 32 05..818924469 +020000 21 47 39 14 59 12..930816 11.311 13.963 14.418 +1.240 +0.765 +0.675 +1.298 +0.366 +0.025 +0.664 +0.417 +0.416 +0.577 +0.370 +0.421 +1.240 +0.787 +0.840 26 20 2 20 11 1 0.0006 0.0034 0.00150.0035 0.0072 0.0038 0.0057 0.0159 0.0006 0.0120 0.0025 0.0008 0.0233 0.0045 0.0016 0.0113 0.0056 PG0918+029A 09 21 35.107−− +02 46 19.43 14.490 +0.536 0.032 +0.325 +0.336 +0.661 29 14 0.0033··· 0.0058 0.0095 0.0039 0.0076 0.0085 UBVRI 107 636 15 40 40 .488 00 14 53.10 14.873 +0.751 +0.121− +0.432 +0.465 +0.896 2 1 0.0134 0.0120 0.0177 0.0085 0.0417 0.0325 PG0918+029C107 359 09 15 21 39 42 09..30604 − +0200 46 35 37 38..07612.797+0.580 13.537 +0.631 +0.0870.124 +0.379 +0.367 +0.381+0.357 +0.722 +0.759 21 6 10 3 0.0020 0.0049 0.0028 0.0069 0.0048 0.0118 0.0015 0.0029 0.0022 0.0033 0.0028 0.0053 107 639 15 40 44 .767 −00 17 10.24 14.197 +0.640 −0.026 +0.399 +0.404 +0.803 10 6 0.0161 0.0092 0.0202 0.0104 0.0095 0.0126 107 599 15 39 09.457 − 00 14 28.74 14.675 +0.698− +0.243 +0.433 +0.438 +0.869 17 7 0.0082 0.0121 0.0061 0.0053 0.0121 0.0155 BD107 64012 2918 15 09 40 31 49 19.15037 −0013 1629 47 19.53310.067+1.501+1.166+1.067+1.318+2.3851390.00250.00280.00750.00390.00220.0042 15.050 +0.755 +0.092 +0.511 +0.506 +1.017 5 3 0.0250 0.0103 0.0322 0.0183 0.0161 0.0246 − UBVRI G153107− 600 41 16 15 17 39 55 10..241065 −1500 35 15 52 51..1515 13.425 14.884 +0.5030.210 +0.0491.129 0.133 +0.3390.158 +0.3610.289 +0.700 39 9 27 4 0.0015 0.0170 0.0016 0.0130 0.0026 4195 0.0227 0.0010 0.0097 0.0023 0.0147 0.0025 0.0203 STARS STANDARD EQUATORIAL PG0942 029D 09 45 08.637 −−03 05 54.45 13.683− +0.576− +0.064− +0.341− +0.329− +0.668 13 8 0.0009 0.0029 0.0054 0.0015 0.0039 0.0044 G138107 601 25− 16 15 25 39 13 13..95288 − +1500 40 13 54 28..25014.646+1.412+1.265+0.923+0.835+1.76133130.00450.00730.02470.00350.00310.0038 13.513 +1.419 +1.265 +0.883 +0.796 +1.685 2 1 0.0007 0.0177 0.0382 0.0028 0.0028 0.0049 PG0942 029A 09 45 09.90 −03 10 14.214.738+0.888+0.552+0.563+0.474+1.0351680.00210.00210.00650.00230.00410.0050 BD 12− 4523 16 30 18.059 −12 39 45.34 10.072 +1.566 +1.195 +1.155 +1.499 +2.651 16 13 0.0021 0.0005 0.0019 0.0005 0.0016 0.0013 PG0942− 029B 09 45 11.574 −03 06 58.11 14.105 +0.573 +0.014 +0.353 +0.341 +0.693 13 8 0.0022 0.0014 0.0043 0.0018 0.0036 0.0041 HD 149382− 16 34 23 .333 −04 00 52.02 8.943 0.282 1.143 0.127 0.135 0.262 57 48 0.0008 0.0008 0.0022 4199 0.0004 0.0007 0.0008 STARS STANDARD EQUATORIAL PG0942 029 09 45 11.85 −03 09 21.014.012−0.298 −1.177 −0.132 −0.165 −0.296 21 13 0.0022 0.0025 0.0031 0.0026 0.0058 0.0067 108 1332− 16 35 21 .401 −00 04 05.32 9.208− +0.380 +0.083− +0.225− +0.225− +0.449− 76 60 0.0005 0.0007 0.0010 0.0004 0.0003 0.0005 PG0942 029C 09 45 14.386 −03 06 40.28 14.950 +0.803 +0.338 +0.488 +0.395 +0.884 16 8 0.0024 0.0024 0.0049 0.0021 0.0045 0.0053 PG1633+099− 16 35 24 .025− +09 47 49.90 14.396 0.191 0.990 0.085 0.114 0.208 20 11 0.0016 0.0021 0.0031 0.0026 0.0085 0.0107 101 315 09 54 51.298 00 27 31.09 11.249− +1.153− +1.056− +0.612− +0.559− +1.172 19 11 0.0037 0.0018 0.0067 0.0016 0.0011 0.0021 − 101PG1633+099A 316 16 09 35 54 25 52.984034 +0900 47 18 53 34.1951 15.259 11.552 +0.871 +0.493 +0.305 +0.032 +0.506 +0.293 +0.506 +0.291 +1.011 +0.584 23 17 10 10 0.0032 0.0027 0.0042 0.0024 0.0037 0.0036 0.0033 0.0019 0.0078 0.0029 0.0099 0.0032 Figure 82. Field, 10 on a side, of the star PG1514+034.− Figure 87. Field, 10 on a side, of SA 107 SF3. 101PG1633+099G′ L1 16 09 35 55 32 29.33609 +0900 50 21 30 42.74616.501+0.757 13.749 +0.693 +0.0790.104 +0.412 +0.421′ +0.389 +0.527 +0.804 +0.947 15 4 8 1 0.0016 0.0310 0.0012 0.0340 0.0044 0.0290 0.0012 0.0225 0.0015 0.0855 0.0023 0.1070 − − 101PG1633+099B 320 16 09 35 55 33 32.304924 +0900 46 22 20 32.7172 12.968 13.823 +1.081 +1.052 +1.017 +0.690 +0.589 +0.581 +0.503 +0.561 +1.090 +1.141 18 11 10 7 0.0016 0.0048 0.0013 0.0103 0.0051 0.0181 0.0010 0.0039 0.0013 0.0036 0.0019 0.0045 − PG1633+099F 16 35 36 .713 +09 49 40.34 13.768 +0.878 +0.254 +0.523 +0.522 +1.035 15 8 0.0020 0.0024 0.0048 0.0013 0.0022 0.0028 101 L2 09 55 34.688 00 18 50.10 15.770 +0.602 +0.082 +0.321 +0.304 +0.625 1 1 PG1633+099C 16 35 37 .275− +09 46 15.80 13.224 +1.144 +1.146 +0.612 +0.524 +1.133 17 10 0.0017··· 0.0008 ··· 0.0022 ··· 0.0010 ··· 0.0014 ··· 0.0027 ··· 101 404 09 55 40.673 00 18 22.23 13.459 +0.996 +0.697 +0.530 +0.500 +1.029 12 7 0.0040 0.0078 0.0095 0.0049 0.0032 0.0055 PG1633+099D 16 35 40 .089− +09 46 41.57 13.689 +0.535 0.021 +0.324 +0.323 +0.649 20 12 0.0016 0.0018 0.0028 0.0011 0.0018 0.0020 101 324 09 55 56.650 00 23 15.10 9.737 +1.161− +1.145 +0.591 +0.519 +1.109 60 47 0.0005 0.0008 0.0018 0.0006 0.0007 0.0010 PG1633+099E 16 35 45 .084− +09 49 24.53 13.113 +0.841 +0.337 +0.484 +0.471 +0.953 16 9 0.0021 0.0020 0.0037 0.0014 0.0018 0.0024 101 408 09 56 08.001 00 12 41.28 14.785 +1.200 +1.347 +0.718 +0.603 +1.321 2 1 0.0240 0.0438 0.0170 0.0170 0.0120 0.0297 108 719 16 36 11 .047 −00 25 29.07 12.690 +1.031 +0.648 +0.553 +0.533 +1.087 4 2 0.0045 0.0025 0.0005 0.0045 0.0025 0.0050 101 262 09 56 08.096 −00 29 50.50 14.295 +0.784 +0.297 +0.440 +0.387 +0.827 4 2 0.0045 0.0160 0.0205 0.0075 0.0100 0.0035 108 1848 16 36 58 .442− +00 05 55.61 11.738 +0.559 +0.073 +0.331 +0.325 +0.657 1 1 101 326 09 56 08.101 00 27 10.94 14.923 +0.729 +0.227 +0.406 +0.375 +0.780 13 6 0.0078··· 0.0094 ··· 0.0128··· ··· 0.0055 ··· 0.0111 ··· 0.0122 108 475 16 37 00 .595 −00 34 39.17 11.307 +1.380 +1.463 +0.743 +0.664 +1.408 113 98 0.0007 0.0006 0.0028 0.0004 0.0004 0.0007 101 327 09 56 08.86 −00 25 53.513.441+1.155+1.139+0.717+0.574+1.29028150.00320.00570.00980.00230.00170.0028 − 101108 410 1863 16 09 37 56 12 09.452136 +0000 02 14 30 02.5823 12.244 13.646 +0.803 +0.546 +0.3780.063 +0.446 +0.298 +0.398 +0.326 +0.844 +0.623 1 2 1 1 0.0085 0.0014 0.0021 0.0106 0.0035 0.0064 − − ··· ··· ··· ··· ··· ··· 101108 413 1491 16 09 37 56 13 14.934009 00 0211 41 54.9186 12.583 9.059 +0.964 +0.983 +0.616 +0.716 +0.522 +0.529 +0.498 +0.497 +1.020 +1.025 77 9 62 6 0.0006 0.0023 0.0005 0.0047 0.0012 0.0103 0.0003 0.0033 0.0004 0.0040 0.0005 0.0040 − 101108 268 551 16 09 37 56 47 17.788377 00 3331 05 57.1605 10.702 14.380 +0.180 +1.531 +0.182 +1.381 +0.100 +1.040 +0.109 +1.200 +0.209 +2.237 144 11 114 5 0.0006 0.0078 0.0004 0.0199 0.0010 0.0769 0.0004 0.0048 0.0005 0.0036 0.0006 0.0045 108 1918 16 37 50 .129 −00 00 36.41 11.384 +1.432 +1.839 +0.773 +0.661 +1.434 2 1 0.0007 0.0014 0.0042 0.0042 101 330 09 56 20.587 −00 27 22.12 13.723 +0.577 0.026 +0.346 +0.338 +0.684 28 14 0.0038 0.0038 0.0051··· 0.0028 0.0057··· 0.0064 108 981 16 39 16 .614 −00 25 06.98 12.071 +0.494 +0.237− +0.310 +0.312 +0.622 4 2 0.0025 0.0015 0.0075 0.0020 0.0030 0.0010 101 415 09 56 23.145 −00 16 53.02 15.259 +0.577 0.008 +0.346 +0.350 +0.695 2 1 0.0028 0.0247 0.0021 0.0198 0.0134 0.0332 PG1647+056 16 50 18 .461− +05 32 55.94 14.773 0.173 −1.064 0.058 0.022 0.082 7 3 0.0087 0.0087 0.0076 0.0102 0.0151 0.0163 101Wolf 270 629 16 09 55 56 25 27.223023 0800 1935 21 44.3015 11.759 13.711− +1.676 +0.554 +1.256− +0.055 +1.185− +0.332 +1.525− +0.306 +2.715− +0.637 7 2 4 1 0.0042 0.00300.0014 0.0034 0.0127 0.0017 0.0049 0.0013 0.0071 0.0013 0.0014 − ··· 101PG1657+078E 278 16 09 59 56 27 54.221467 − +0700 44 29 01 38.2639 14.486 15.494 +0.787 +1.041 +0.284 +0.737 +0.436 +0.596 +0.413 +0.548 +0.851 +1.144 4 2 2 1 0.0020 0.0184 0.0130 0.0226 0.0095 0.0269 0.0020 0.0198 0.0105 0.0148 0.0105 0.0346 − 101PG1657+078D L3 16 09 59 56 27 55.877025 +0700 42 30 59 25.7147 16.156 15.953 +0.986 +0.637 +0.5990.033 +0.635 +0.396 +0.592 +0.395 +1.227 +0.792 1 2 1 1 0.0233 0.0184 0.0707 0.0382 0.0488 0.0870 − − 101PG1657+078B 281 16 09 59 57 31 05.97902 +0700 42 31 07 43.34211.576+0.812+0.415+0.453+0.412+0.86423150.00230.00130.00310.00130.00090.0013 14.724 +0.697 +0.039 +0.417 +0.420 +0.838 8 4 0.0016··· 0.0036 ··· 0.0041 ··· 0.0014 ··· 0.0014 ··· 0.0014 ··· − 101 L4 09 57 07.76 00 31 24.416.264+0.793+0.362+0.578+0.062+0.6442 10.01700.01410.00140.01910.26380.2807 − 101PG1657+078 L5 16 09 59 57 32 10.21621 +0700 43 30 31 40.43315.928+0.622+0.115+0.414+0.305+0.7202 15.019 0.142 0.958 0.079 0.058 0.128 17 8 10.01060.02830.08630.00780.01340.0212 0.0036 0.0033 0.0042 0.0058 0.0243 0.0299 − − − − − − 101PG1657+078A 421 16 09 59 57 33 16.207107 +0700 42 17 19 18.4220 14.032 13.180 +1.068 +0.507 +0.7350.031 +0.569 +0.327 +0.538 +0.296 +1.105 +0.623 10 2 5 1 0.0007 0.0021 0.0007 0.0021 0.0054 0.0035 0.0026 0.0021 0.0005 0.0007 0.0027 0.0014 − − 101PG1657+078C 338 16 09 59 57 35 17.270754 +0700 42 21 26 00.5134 15.225 13.788 +0.837 +0.634 +0.382 +0.024 +0.504 +0.350 +0.442 +0.340 +0.965 +0.691 5 2 2 1 0.0019 0.0071 0.0020 0.0071 0.0082 0.0042 0.0044 0.0021 0.0120 0.0035 0.0070 0.0014 BD 44226 170513.783 −05 05 39.21 10.071 +1.415 +1.085 +0.970 +1.141 +2.113 6 3 0.0033 0.0012 0.0029 0.0004 0.0008 0.0012 101109 339− 71 17 09 44 57 06 18.792389 −00 2425 58 01.0180 11.490 14.449 +0.326 +0.850 +0.154 +0.501 +0.187 +0.458 +0.223 +0.398 +0.409 +0.857 65 2 56 1 0.0007 0.0099 0.0006 0.0085 0.0014 0.0099 0.0006 0.0240 0.0007 0.0042 0.0009 0.0290 − 101109 424 381 17 09 44 57 12 20.269263 −00 2016 32 25.8088 11.731 15.058 +0.704 +0.764 +0.222 +0.273 +0.427 +0.429 +0.435 +0.425 +0.862 +0.855 70 2 57 1 0.0008 0.0276 0.0010 0.0389 0.0012 0.0191 0.0004 0.0226 0.0006 0.0205 0.0008 0.0431 Figure 85. Field, 10 on a side, of SA 107 SF1. − Figure 88. Field, 10 on a side, of the star G 153-41. 109 949′ 17 44 13 .616 −00 02 28.02 12.828 +0.806 +0.363 +0.500′ +0.517 +1.020 2 1 0.0064 0.0007 0.0099 0.0078 0.0035 0.0113 109 956 17 44 14 .54 −00 02 07.7 14.639 +1.283 +0.858 +0.779 +0.743 +1.525 2 1 0.0113 0.0198 0.0035 0.0184 0.0156 0.0346 − Exoplanet transits • Forecast for transits: • hdp://var2.astro.cz/ETD/index.php

20 WASP-43 Example from 2014 undergrad observing run RA (J2000): 10 19 38.01, DE (J2000): -09 48 21.9, V = 12.4 mag, dV = 0.029 mag, dura)on = 69.5 min P = 0.813475d, T0 = 2455528.86774 (JD)

Tmid (HJD) BEGIN (UT/h,A) CENTER (DD.MM. UT/h,A) END (UT/h,A)

2456760.469 12.04 22:40 (68°,NE) 12.04. 23:15 (74°,NE) 12.04 23:49 (76°,N) 21 Tips for exoplanet transits • Choose visible transits with large transit depths (meaning a large varia)on in magnitude, ΔV) • Choose rela)vely short transits, meaning dura)on below 1,5 hours, if possible • Nearby star(s) for comparison • Start the observa[ons at least 10 min before the transit begins and ﬁnish at least 10 min a]er the transit ends. The same applies for variable stars

22 Spectroscopy: low resolu)on (~2Å)

G band 4340 γ H

Hβ FeI 4384

NaD MgI H K FeI 5270

23 Conﬁgura)on of the spectrograph

- 600 l/mm gra)ng at Cassegrain - Detector ikon. - Slit 120 um (1,5 arcsec) - Central lambda: 4875 Å (approximate coverage 3700 – 6000 Å)

24 Spectroscopy: choose 2 objects, but only do 1 All: 1 diﬀerent spectrophotometric standard 1) B, Be and B[e]. Compare among them 2) T Tauri AND normal star of same spectral type 3) Asteroid (or Ganymede) AND Moon. Compare 4) Integrated spectra of globular cluster 5) Integrated spectrum of ellip)cal galaxy 6) Integrated spectrum of bulge of spiral 7) Spectrum of H II region (iden)fy lines) 8) Spectroscopic transit or AGN (Raniere). 9) 10 calibra)on stars & metal-poor candidates: Kilian 4, 5, 6: compare to stars that will be provided, to determine the “spectral type” of the object 25 Asteroids or Planets. For exam: send me one posi)on per night; for run: every 20min hdps://ssd.jpl.nasa.gov/horizons.cgi

26 To check coordinates of non-moving targets you can use Simbad hdp://simbad.u-strasbg.fr/simbad/sim-ﬁd

27 OPD format: use 2000 epoch

-0.081 -0.02364 OPD: proper mo)on in “/year: Divide by 1000 SIMBAD’s value In short 1. Characterize CCD of 1,6m OR 0,6m telescope 2. Perform imaging (planet, cluster, nebula, galaxy) 3. Differen)al photometry (exoplanet transit or variable star) or atmospheric ex)nc)on 4. Spectroscopic observa)ons: must observe at least 1 spectrophotometric star and another target (star, asteroid AND moon, cluster or galaxy, among op)ons suggested). Full data reduc)on, including flux calibra)on 5. For 2, 3, 4, MUST provide target list (2 for imaging, 1 for differen)al photometry, and 2 objects + 1 spectrophotometric standard for spectroscopy) by June 6, 18:00 (it is part of the exam). First come first served 29 Logis)cs I 9/jun (sexta) – 10:30 departure from IAG. Arrival to OPD in about 4 – 5 hours. NOTE: departure on 9/jun is pending confirma)on. 12/jun (segunda)- 10:30 – Departure from OPD.

Meals (refeições):

On the day of arrival: Dinner (jantar) from 17h to 18h Night snacks at the “Copinha” (1,6m building)

10/jun, 11/jun: Lunch (almoço) from 12h to 13:30h Dinner (jantar) from 17h to 18h Night snacks at the “Copinha” (1,6m building)

12/jun – Simple breakfast, 8h to 8:30h? Pending conﬁrma)on30 Logis)cs II

Observações:

On Departure, Café da manhã (breakfast) simples: (café, leite, biscoitos, pão de forma, presunto e queijo)

Night snacks at “Copinha”: Não haverá reposição do lanche salgado, do bolo e do suco