DOCSLIB.ORG

Official Journal

Total Page:16

File Type:pdf, Size:1020Kb

Download full-text PDF Read full-text
Official Journal THE CITY RECORD. OFFICIAL JOURNAL. VOL. XXV. NEW YORK, TUESDAY, DECEMBER 7, 1897. NUMBER 7,471. COMMISSIONERS OF ACCOUNTS. OFFICE OF THE COM,(ISSIONERS OF ACCOUNTS, ROOMS I14 AND I15. STEWART BUILDING, " E "-Receipts and Payments-Sinking Fund, Interest Accounts. No. 280 BROADWAY, NEW YORK, October Iz, 1897. flail. WILLIAM L. STRONG, Illayor: " F "-Receipts and Payments-Registered Interest, Witness and Jury Fce,, etc. SIR--In compliance with the requirements of section IIO of the New York City Consolidation '° G "-Registered Interest Checks remaining unpaid in the hand; f the Chauthei1ain. Act of 1882, as amended by chapter 516 of the Laws of 18S4, we herewith transmit the results of " H "--Accounts and Depositories of City Money. our examination of the Chamberlain's and Comptroller's offices for the second quarter of 1897, and °' I "-Stocks and Bonds issued and Stocks and Bonds canceled. submit statements as follows : 11 J "-Statement of the City Debt. The balance in the City Treasury, Sinking Funds and Miscellaneous Accounts on June r' K "-- All accounts upon the City Chamberlain's Ledger, showin,, bat nce, over front the 30, 1897, $11,562,540.73, which agrees with the balances as stated in the Chamberlain's books, preceding quarter, Receipts and Payments during the quarter, Transfer Entric;, svitll the authority and also with the certificates of the officers of the several depository banks of concurrent date, for the same, and balances carried forward. The following tables accompany this report : `r L "-Trial Balance, June 30, 1897, of the Chamberlain's Ledger. A "-Receipts and Payments-Special and Trust Accounts. Very respectfully, B "--Receipts and Payments-Appropriation, General Fund and Taxes Accounts. SETH SPRAGUE TERRY, C "--Receipts and Payments-Sinking Fund, Redemption Accounts. RODNEY S. DENNIS, 1) "-Receipts and Payments-Sinking Fund, Redemption Accounts, No. 2. Commissioners. 't A."-CCTV TREASURY.-.Sta(ement of Receipts and Ihyments for the Quarter esadin,, Juno 30, 1897. SPECIAL AND TRUST ACCOUNTS. APRIL. MAY. JUNE. TOTAL FOR '1100 (2t-ARTER. 1'11'LES OF ACCOUNTS. I -- - - - -- - - - Receipts. Payments. Receipts. Payments. Receipts Pnymrnts. Receipts. Pay nun Addi,i-nal Wstcr Fnnd ..................................................................... 54,062 64 to6,574 90 £2,ot3 50 5113,15a Sr :5,733 97 5121.984 z8 +jlt,8ro rt 5331,709 99 ......................................................... ............I 462 34 .,--...... 4,3051 17 ..-....... 5;0 33 5; 3z6 84 I 3 '.7 . II Ad litional Park Fund .. 3 7 45 American Museum of Natural History .................................................... .......... 20,692 tg -,,,,,.... 16,637 36 .......... o7 4 .. 3.1. 53. Bonds ..............................................................................' 4,500 00 .... ...... 5,300 00 ... .. ,....... I 9,500 00 .. .. .... Armory I Armory t'rin •d ............................................................................... I .......... 1,554 05 .. .. ,,578 7o ........., •• 6,0 8 o Asse-smcnt Rends-Fort \Vashington Ridge Road ............................................I .......I.. .......... .... Soo 05 .....3...3 50025 ..... j8 Adoitional\Vater Full -City of New York ........................................ .... .... ..' .......... 9,050 6~ .. .9,926 42 .......•., 20,ao8 53I ... ... ...• 49,+85 53 Additional Water Stock -l:ily of New 1'c.rk ... .............................................. .......... .......... .......... .........I 05,000 00 .......... 250,00o 00 ........ .. ................. ....... 275 00 ..... .... 140 00 ........,, .......... .......... 31 Appella te I )is ision, supreme Court, City Hall .............................. ....... ... 075 I 4r; Antit x ne F ,nd ....................................... .................. ... ..... ..........' 1,094 94 1,078 67 2,583 07 .......... Sso r4 2,oz0 86 4.558 r5 3,.01 53 AmbulanceS,ation .......................................................................... .......... .......... .......... ! 17,8ro co x,386 ou .......... 29,206 00 Asscssmeut Kon'.Is-Via,luct ...............,.............................................. .......... .......... .......... ....I...I. 1,5- 00 ,.1 .... 1,50000 .......... Block lax A. s, nsent-\lap Fund ..........................................................I .......... .........I ......... 774 c8 .... ,..... ,549 96 .......... 0,324 la Bronx and Pc111a m Parkway ..................................................................1 ........ 3,70, 6o .......... 212 37 353 69 .......... 4,281 75 .......... Rrid g,.•~~V Cr H arletn River at•Phird Avenue .............................................. .......... .8,826 18 .••.I...1 23,953 t1 , 111,155 93 Il 155,053 Central Park G,nstructi.m ............................................... 14 52 .....,.... 2537 h ..... 457. Charges on Arrears of A<se -snrents .......................................................... 1 8r oo .......... 6 oo .......... 6 o:, ......... 9300 ......... I,,rges on Arrears of taxes ................................................................' 51 50 ...,..6 ... it eo 1 .....18 ..5 57 00 .........I 10650 .......... I ~5 . C'.om missi,uers of the Excise r'und .................... ............ ..... .............. ........ ...... .... 8o ... .. i r8 0 ......-,., ~ .......... 29 l'„n,ohdated Flo•.k ...................................................... .......... .. ...... 0,559 ag .......... 425,768 56 1 .......... 1.6,973 4t 845.3-1 09 C n,tnn Water Fund ..................................................................... I .......... t_a,o63 90 .......... Ie,87z 9E .... ...... 26,5(4 09 .. ..... 50,450 Croton A':,t?r Rent-Refunding Account..................................................... .......... 671 78 847 90 208 5o .... ...... .to 20 ..847 90 9'1' 43 t: r inin al I'ou rt-house Fuji L .................................... .......... z,z 52 IS ........ .. .......... 9,?46 00 .......... 12.5118 t8 Criminal C~.mrt-hnu •c Bonds ............. ~ ' .. ................. ........... .... ...... ........ .... ...... .......... •.ro,00c oo ...- -..... IU,GoD CO .......... C:u tied ral Pat kway-I mprovemeut and Lonstru.:tion .......................... .............. .......... ......... .......... tz 02 .• r^_ na tbaoce CL Gratte-'1'Iventy-third and Twenty-fourth Wards ..................................1 .......... 19,705 in .......... 135.377 6z I......... 19,423 93 .... .... 174,556 67 C.otlr Garden Improvement ......................................... ........................ .......... o. .......... 2,;9S 28 .......... 1,370 8o .......... 8,5;11 r6 ....... .......... 48,003 00 48,007 or t ~(ItCSO City of New V,,rk-New Si.es, etc ............. ..................................... ..... .... .......... .......... .......... C,msolid ted Debt Nund ......................................... ........................... I .......... 3.005 oo .......... 500 00 .......... -......... .......... 3,5- ,o (_ onslructi n of l'e eporary Bridge, flar le-t River and One Hundred and Forty-fifth Street.,.... .......... .......... .......... 7 34 •... • • • • . • .... 2... ! .......... 7 34 C~Iusn ucu,. it of New L'ridge, I'elh:nn Bay Park, etc ........................................... .......... 12 33 ......•. ..... •• ....... .. .. ...... nt ¢:4 43 1:2,6,19 81 zoo 40 208 48 l to,:'s t w d ...................................................... 465 fo 76,304 8o ,943 03 1 •• 890 397,857 (1 4 Department of Auildin~<-S,eci.~l Fund ................................................... .. r6 14 .......... 309 r8 .......... r 22,350 00 .......... ,8 )• artment of Street Cleamw,-New Plant .................................................. I 6 W 15,762 0 .. • • ....... 18.406 22 56,5 (i.I,artnlent of ['or reCeion-l3ui1ding Fund ...................... ............................. ....,..... ..... ••••..•... '94 34 •...•.•.•. 18,512 70 .......... 18,7117 114 IcicvunCut cfl'ublic Charities- Budding Fuad ............................................. ......... 7,802 57 43,41 5 84 •.••••• 22,982 53 .......... 74,2011 94 . ... ••..•• 1•:xci-e Licrnces . .................... .... .......... .... .. .... .........,... .. .., .. ..........~ .......... 3,072 28 .......... ..-.... ,. .......... .... ..... ......-.-- . 3,1:72 _8 Ezi-t River Park Construction ...................................... .... .. .... ...... ...... .... .......... 4,u75 94 .....,.... 285 45 ......-,,, 319 90 ....... 4,677 zo Excise C:,xes .................................................................... ......... ... 1 1,538,169 oo 6,,108 75 1,930,773 34 1 105,366 65 73,256 64 132,185 27 I 3,542,196 9S 3ee,66.I (7 Eleventh Ward Park Fund ................... ............................................... .......... 6,0r7 75 1......... .......... ........ -. .. .......... 6,017 75 ....... tt Fire y ............................... .......... 4,969 31 .......... 3,661 511 .......... 4,208 48 „ 12,841 .......... 345 63 loo 00 487 06 zo) , f o ...................................................... .... ...... rod 011 115 43 98,009 tz 124, 1 41 r ~trectland Park,O I nn, o*;g ............................ .................................... I 176,756 78 226,588 r(; 361,493 43 ] ,95,948 67 954 56 636,259 33 547,49 Fund .... 77 Fortcitcd Rccognizanc s .......... ......................... .......................... .......... .......... ..... .... 1,813 00 ,.....,... ...... .......... ......,... 0.303 25 .... ..-. .. 9,161 27 Ucpartment Fund for Sites .............................................................I...
Load more

Recommended publications
  • Martian Crater Morphology
    ANALYSIS OF THE DEPTH-DIAMETER RELATIONSHIP OF MARTIAN CRATERS A Capstone Experience Thesis Presented by Jared Howenstine Completion Date: May 2006 Approved By: Professor M. Darby Dyar, Astronomy Professor Christopher Condit, Geology Professor Judith Young, Astronomy Abstract Title: Analysis of the Depth-Diameter Relationship of Martian Craters Author: Jared Howenstine, Astronomy Approved By: Judith Young, Astronomy Approved By: M. Darby Dyar, Astronomy Approved By: Christopher Condit, Geology CE Type: Departmental Honors Project Using a gridded version of maritan topography with the computer program Gridview, this project studied the depth-diameter relationship of martian impact craters. The work encompasses 361 profiles of impacts with diameters larger than 15 kilometers and is a continuation of work that was started at the Lunar and Planetary Institute in Houston, Texas under the guidance of Dr. Walter S. Keifer. Using the most ‘pristine,’ or deepest craters in the data a depth-diameter relationship was determined: d = 0.610D 0.327 , where d is the depth of the crater and D is the diameter of the crater, both in kilometers. This relationship can then be used to estimate the theoretical depth of any impact radius, and therefore can be used to estimate the pristine shape of the crater. With a depth-diameter ratio for a particular crater, the measured depth can then be compared to this theoretical value and an estimate of the amount of material within the crater, or fill, can then be calculated. The data includes 140 named impact craters, 3 basins, and 218 other impacts. The named data encompasses all named impact structures of greater than 100 kilometers in diameter.
    [Show full text]
  • Appendix I Lunar and Martian Nomenclature
    APPENDIX I LUNAR AND MARTIAN NOMENCLATURE LUNAR AND MARTIAN NOMENCLATURE A large number of names of craters and other features on the Moon and Mars, were accepted by the IAU General Assemblies X (Moscow, 1958), XI (Berkeley, 1961), XII (Hamburg, 1964), XIV (Brighton, 1970), and XV (Sydney, 1973). The names were suggested by the appropriate IAU Commissions (16 and 17). In particular the Lunar names accepted at the XIVth and XVth General Assemblies were recommended by the 'Working Group on Lunar Nomenclature' under the Chairmanship of Dr D. H. Menzel. The Martian names were suggested by the 'Working Group on Martian Nomenclature' under the Chairmanship of Dr G. de Vaucouleurs. At the XVth General Assembly a new 'Working Group on Planetary System Nomenclature' was formed (Chairman: Dr P. M. Millman) comprising various Task Groups, one for each particular subject. For further references see: [AU Trans. X, 259-263, 1960; XIB, 236-238, 1962; Xlffi, 203-204, 1966; xnffi, 99-105, 1968; XIVB, 63, 129, 139, 1971; Space Sci. Rev. 12, 136-186, 1971. Because at the recent General Assemblies some small changes, or corrections, were made, the complete list of Lunar and Martian Topographic Features is published here. Table 1 Lunar Craters Abbe 58S,174E Balboa 19N,83W Abbot 6N,55E Baldet 54S, 151W Abel 34S,85E Balmer 20S,70E Abul Wafa 2N,ll7E Banachiewicz 5N,80E Adams 32S,69E Banting 26N,16E Aitken 17S,173E Barbier 248, 158E AI-Biruni 18N,93E Barnard 30S,86E Alden 24S, lllE Barringer 29S,151W Aldrin I.4N,22.1E Bartels 24N,90W Alekhin 68S,131W Becquerei
    [Show full text]
  • In Pdf Format
    lós 1877 Mik 88 ge N 18 e N i h 80° 80° 80° ll T 80° re ly a o ndae ma p k Pl m os U has ia n anum Boreu bal e C h o A al m re u c K e o re S O a B Bo l y m p i a U n d Planum Es co e ria a l H y n d s p e U 60° e 60° 60° r b o r e a e 60° l l o C MARS · Korolev a i PHOTOMAP d n a c S Lomono a sov i T a t n M 1:320 000 000 i t V s a Per V s n a s l i l epe a s l i t i t a s B o r e a R u 1 cm = 320 km lkin t i t a s B o r e a a A a A l v s l i F e c b a P u o ss i North a s North s Fo d V s a a F s i e i c a a t ssa l vi o l eo Fo i p l ko R e e r e a o an u s a p t il b s em Stokes M ic s T M T P l Kunowski U 40° on a a 40° 40° a n T 40° e n i O Va a t i a LY VI 19 ll ic KI 76 es a As N M curi N G– ra ras- s Planum Acidalia Colles ier 2 + te .
    [Show full text]
  • Övervakning: Var Går Gränsen? - En Studie Av Lastbilschaufförer Som Arbetar I Bohuslän Och Hur De Ser På IT Som Hjälpmedel Och Övervakning På Jobbet
    Institutionen för ekonomi & IT Avd. för informatik Kandidatuppsats, 15 hp i informatik Övervakning: Var går gränsen? - En studie av lastbilschaufförer som arbetar i Bohuslän och hur de ser på IT som hjälpmedel och övervakning på jobbet Surveillance: Where is the limit? - A study of the truck drivers in Bohuslän and how they look upon IT as a helper and a surveiller at work Examensarbete Informatik Vårterminen 2013 Författare: Johan Adebahr Författare: Victor Andersson Handledare: Malin Pongolini Examinator: Kerstin Grundèn Abstract Nowadays companies and organizations are implementing IT-systems that enable surveillances, particularly within the transport business. The implementation within the surveillances systems enables a better security and a more efficient workflow. The systems make it possible for companies to see fuel consumption, the position off the truck and also to plan the most efficient routes. The truck drivers have learned to accept that they are being watched through the companies surveillance systems just because it leads to a more efficient route-planning. The drivers understand why they’re being monitored and they feel safe. Since IT-systems came into the transport business drivers are able to see the fuel consumption and by seeing that they can drive more ecological and save money for their company. The truck driver that works in Bohuslän is well aware that these services are crucial for the companies, by having these systems the companies can compete with the foreign hauliers that takes the same job for a much smaller fee. But where is the limit for acceptable surveillance? We answered the issue by doing interviews in two rounds, first with ten truck drivers then with six.
    [Show full text]
  • The Blue Planet Report from Stellafane Perspective on Apollo How to Gain and Retain New Members
    Published by the Astronomical League Vol. 71, No. 4 September 2019 THE BLUE PLANET REPORT FROM STELLAFANE 7.20.69 5 PERSPECTIVE ON APOLLO YEARS APOLLO 11 HOW TO GAIN AND RETAIN NEW MEMBERS What’s Your Pleasure? From Famous Observatories to Solar Eclipse Take Your Pick From These Tours Travel Down Under to visit top Australian Observatories observatories, including Siding October 1–9, 2019 Spring and “The Dish” at Parkes. Go wine-tasting, hike in nature reserves, and explore eclectic Syd- ney and Australia’s capital, Can- berra. Plus: Stargaze under south- ern skies. Options to Great Barrier Reef and Uluru or Ayers Rock. skyandtelescope.com/australia2019 Uluru & Sydney Opera House: Tourism Australia; observatory: Winton Gibson Astronomy Across Italy May 3–11, 2020 As you travel in comfort from Rome to Florence, Pisa, and Padua, visit the Vatican Observatory, the Galileo Museum, Arcetri Observatory, and more. Enjoy fine food, hotels, and other classic Italian treats. Extensions in Rome and Venice available. skyandtelescope.com/italy2020 S&T’s 2020 solar eclipse cruise offers 2 2020 Eclipse Cruise: Chile, Argentina, minutes, 7 seconds of totality off the and Antarctica coast of Argentina and much more: Nov. 27–Dec. 19, 2020 Chilean fjords and glaciers, the legendary Drake Passage, and four days amid Antarctica’s waters and icebergs. skyandtelescope.com/chile2020 Patagonian Total Solar Eclipse December 9–18, 2020 Come along with Sky & Telescope to view this celestial spectacle in the lakes region of southern Argentina. Experience breathtaking vistas of the lush landscape by day — and the southern sky’s incompa- rable stars by night.
    [Show full text]
  • 5 Escape of Atmospheres to Space
    5 Escape of Atmospheres to Space So far, our discussion of atmospheric evolution has circumstances: Jeans’ escape, where individual mol- concentrated on atmosphere and climate fundamentals. ecules evaporate into a collisionless exosphere, and Climate constrains possible life and, as we will see later hydrodynamic escape, which is a bulk outflow with a in this book, the way that climate is thought to have velocity driven by atmospheric heating that induces an evolved can explain many environmental differences upward pressure gradient force (e.g., Johnson et al., between Earth, Venus, and Mars. Climate is closely tied 2013d; Walker, 1982). (ii) Suprathermal (or nonthermal) to the composition of a planet’s atmosphere, which deter- escape is where individual atoms or molecules are mines the greenhouse effect. Consequently, to understand boosted to escape velocity because of chemical reactions how climate has changed over time, we must consider or ionic interactions. Finally, (iii) impact erosion is where how atmospheric composition has evolved. In turn, we atmospheric gases are expelled en masse as a result of must examine how atmospheric gases can be lost. large body impacts, such as the cumulative effect of Gases are lost at an atmosphere’s upper and lower asteroids hits. Of these three types, nonthermal escape is boundaries: the planet’s surface and interplanetary space. generally slow because if it were fast the molecules would In this chapter, we consider the latter. Studies of the Solar collide and the escape would be in the thermal category. System have shown that some bodies are vulnerable to Theory suggests that the two mechanisms that can most atmospheric escape (Hunten, 1990).
    [Show full text]
  • South Caucasus Gas Pipeline. ESIA for Azerbaijan. Technical and Baseline Appendices
    SCP ESIA AZERBAIJAN DRAFT FOR DISCLOSURE ECOLOGICAL BASELINE REPORT 1 Ecology ............................................................................................................................1 1.1 Introduction ..............................................................................................................1 1.2 Methodology .............................................................................................................1 1.2.1 Species status and occurrence..............................................................................4 1.3 Overview of Flora and Fauna in Azerbaijan.................................................................4 1.4 Protected Areas .........................................................................................................1 1.5 Habitats and Vegetation .............................................................................................4 1.5.1 Desert and semi-desert........................................................................................5 1.5.2 Wetlands............................................................................................................8 1.5.3 Woodlands and scrub........................................................................................10 1.5.4 Protected plant species......................................................................................11 1.6 Fauna......................................................................................................................12 1.6.1 General............................................................................................................12
    [Show full text]
  • Science Concept 3: Key Planetary
    Science Concept 6: The Moon is an Accessible Laboratory for Studying the Impact Process on Planetary Scales Science Concept 6: The Moon is an accessible laboratory for studying the impact process on planetary scales Science Goals: a. Characterize the existence and extent of melt sheet differentiation. b. Determine the structure of multi-ring impact basins. c. Quantify the effects of planetary characteristics (composition, density, impact velocities) on crater formation and morphology. d. Measure the extent of lateral and vertical mixing of local and ejecta material. INTRODUCTION Impact cratering is a fundamental geological process which is ubiquitous throughout the Solar System. Impacts have been linked with the formation of bodies (e.g. the Moon; Hartmann and Davis, 1975), terrestrial mass extinctions (e.g. the Cretaceous-Tertiary boundary extinction; Alvarez et al., 1980), and even proposed as a transfer mechanism for life between planetary bodies (Chyba et al., 1994). However, the importance of impacts and impact cratering has only been realized within the last 50 or so years. Here we briefly introduce the topic of impact cratering. The main crater types and their features are outlined as well as their formation mechanisms. Scaling laws, which attempt to link impacts at a variety of scales, are also introduced. Finally, we note the lack of extraterrestrial crater samples and how Science Concept 6 addresses this. Crater Types There are three distinct crater types: simple craters, complex craters, and multi-ring basins (Fig. 6.1). The type of crater produced in an impact is dependent upon the size, density, and speed of the impactor, as well as the strength and gravitational field of the target.
    [Show full text]
  • CITY MANAGER CITY of CAPE Co~
    CITY MANAGER CITY OF CAPE co~. DEPARTMENT OF COMMUNITY D~~~aPMi=tfff 3: ftO MEMORANDUM TO: John Szerlag, City Manager FROM: Vincent A. Cautero, Community Develop~-n~.t Director{!t';)\__, Robert H. Pederson, Planning Manager~ Wyatt Daltry, Planning Team Coordinator vl> DATE: September 6, 2016 SUBJECT: Future Land Use Map Amendment Request-LU16-0012 The City has initiated a large scale future land use map amendment for a large area in Northern Cape Coral; the proposed area is 2,818.49 acres. This request is a follow-up to LU15-0004, which brought over 4,000-acres from the Urban Services Reserve Area into the Urban Services Transition Area. Once the amendment is adopted by Council, property owners could rezone their property for development to permit densities supported by centralized water and sewer utilities. The proposed amendment request includes the following: Current FLU Proposed FLU Acreage Single Family/Multi-Family by PDP (SM) SinQle-Family Residential (SF) 2,686.04 SM Multi-Family Residential (MF) 63.16 SM Parks and Recreation (PK) 10.24 Commercial Activity Center (CAC) SF 29.39 CAC MF 29.66 Thank you for your consideration of this future land use map amendment. Please contact Wyatt Daltry, Planning Team Coordinator, at 573-3160 if you have any questions. VAC/wad(North1 +2FLUMAmemoofintent) Attachment Planning Division Case Report LU 16-0012 Review Date: November 2, 2016 Applicant: City of Cape Coral, Department of Community Development Property Owners: See Attachment A Site Address: See Attachment A Authorized Representative: Wyatt Daltry, AICP Planning Team Coordinator City of Cape Coral Department of Community Development (239) 573-3160 Case Staff: Wyatt Daltry, AICP, Planning Team Coordinator Review Approved By: Robert Pederson, AICP, Planning Manager Purpose: The City has initiated this large-scale future land use map amendment for a large area in Northern Cape Coral.
    [Show full text]
  • Joint Annual Meeting of LEAG-ICEUM-SRR (2008) V
    Program and Abstracts LPI Contribution No. 1446 Joint Annual Meeting of LEAG-ICEUM-SRR October 28–31, 2008 Cape Canaveral, Florida SPONSORED BY Lunar and Planetary Institute National Aeronautics and Space Administration NASA Lunar Exploration Analysis Group International Lunar Exploration Working Group Space Resources Roundtable CONVENERS Clive Neal, University of Notre Dame Steve Mackwell, Lunar and Planetary Institute Bernard Foing, European Space Agency, International Lunar Exploration Working Group Leslie Gertsch, Missouri University of Science and Technology Lunar and Planetary Institute 3600 Bay Area Boulevard Houston TX 77058-1113 LPI Contribution No. 1446 Compiled in 2008 by LUNAR AND PLANETARY INSTITUTE The Lunar and Planetary Institute is operated by the Universities Space Research Association under a cooperative agreement with the Science Mission Directorate of the National Aeronautics and Space Administration. Any opinions, findings, and conclusions or recommendations expressed in this volume are those of the author(s) and do not necessarily reflect the views of the National Aeronautics and Space Administration. Material in this volume may be copied without restraint for library, abstract service, education, or personal research purposes; however, republication of any paper or portion thereof requires the written permission of the authors as well as the appropriate acknowledgment of this publication. Abstracts in this volume may be cited as Author A. B. (2008) Title of abstract. In Joint Annual Meeting of LEAG-ILEWG-SRR, p. XX. LPI Contribution No. 1446, Lunar and Planetary Institute, Houston. This volume is distributed by ORDER DEPARTMENT Lunar and Planetary Institute 3600 Bay Area Boulevard Houston TX 77058-1113, USA Phone: 281-486-2172 Fax: 281-486-2186 E-mail: [email protected] A limited number of copies are available for the cost of shipping and handling.
    [Show full text]
  • THE OHIO JOURNAL of SCIENCE A-1 the Ohio Journal Of
    VOL. 118(1) THE OHIO JOURNAL OF SCIENCE A-1 The Ohio Journal of Volume 118 No. 1 April Program SCIENCEAN INTERNATIONAL MULTIDISCIPLINARY JOURNAL Abstracts The Ohio Journal of Science ISSN 0030-0950 EDITORIAL POLICY Failure to Receive The Ohio Journal of Science Any claim of failure to receive subscription issues of the Journal General must be submitted to The Ohio Academy of Science within six The Ohio Journal of Science(OJS) has published peer-reviewed, months of date of issue of the missing number. original contributions to science, education, engineering, and technology since 1900. The OJS encourages submission of manuscripts relevant to Ohio, but readily considers all submissions Indexing that advance the mission of The Ohio Academy of Science to foster The Ohio Journal of Science is indexed by: curiosity, discovery and innovation to benefit society. Annually Academic OneFile the Academy distributes two printed issues: peer-reviewed April Biological Abstracts/BIOSIS Previews Program Abstracts and peer-reviewed full papers in December. The CAB Abstracts Ohio State University Libraries publish Open Access online OJS EBSCOhost Databases program abstracts and articles accepted throughout the year. Because Google Scholar the OJS is an international multidisciplinary journal, authors should Knowledge Bank (The Ohio State University Libraries) write clearly, concisely, and avoid excessive jargon to assure broad ProQuest Databases understanding of their work by readers in diverse fields. SciFinder Scholar Zoological Record The OJS considers original contributions from members and non-members of the Academy in all fields of science, technology, engineering, mathematics and education. Submission of a manuscript is understood to mean that the work is original and unpublished, and is not being considered for publication elsewhere.
    [Show full text]
  • Topographic Map of Mars
    U.S. DEPARTMENT OF THE INTERIOR OPEN-FILE REPORT 02-282 U.S. GEOLOGICAL SURVEY Prepared for the NATIONAL AERONAUTICS AND SPACE ADMINISTRATION 180° 0° 55° –55° Russell Stokes 150°E NOACHIS 30°E 210°W 330°W 210°E NOTES ON BASE smooth global color look-up table. Note that the chosen color scheme simply 330°E Darwin 150°W This map is based on data from the Mars Orbiter Laser Altimeter (MOLA) 30°W — 60° represents elevation changes and is not intended to imply anything about –60° Chalcoporous v (Smith and others 2001), an instrument on NASA’s Mars Global Surveyor Milankovic surface characteristics (e.g. past or current presence of water or ice). These two (MGS) spacecraft (Albee and others 2001). The image used for the base of this files were then merged and scaled to 1:25 million for the Mercator portion and Rupes map represents more than 600 million measurements gathered between 1999 1:15,196,708 for the two Polar Stereographic portions, with a resolution of 300 and 2001, adjusted for consistency (Neumann and others 2001 and 2002) and S dots per inch. The projections have a common scale of 1:13,923,113 at ±56° TIA E T converted to planetary radii. These have been converted to elevations above the latitude. N S B LANI O A O areoid as determined from a martian gravity field solution GMM2 (Lemoine Wegener a R M S s T u and others 2001), truncated to degree and order 50, and oriented according to IS s NOMENCLATURE y I E t e M i current standards (see below).
    [Show full text]