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Dr Brandon Doss Assistant State Veterinarian AR Livestock & Poultry
HATCHERIES, DEALERS, AND INDEPENDENT FLOCKS PARTICIPATING IN THE NATIONAL POULTRY IMPROVMENT PLAN MULTIPLIER MEAT-TYPE CHICKEN BREEDING FLOCKS NPIP. HATCHING PRODUCTS CLASSIFIED ADDITIONAL NO. SUBPART PARTICIPANTS NAME AND ADDRESS EGG U.S. PULLORUM-TYPHOID CLASSIFICATIONS FOR CAPACITY CLEAN WHICH PRODUCTS QUALFIED 71 - Arkansas Dr Brandon Doss Assistant State Veterinarian AR Livestock & Poultry Commission PO Box 8505 Little Rock, AR 72215 Phone: 501-907-2254 Fax:501-907-2259 [email protected] Hatchery Farm/company George's Inc. #1 P.O. Box G Springdale, MGM MSM AI 24 C AR 72764 T CLEAN P/T CLEAN Phone: OK Farms P.O. Box 1119 Ft. Smith, MGM MSM AI 121 C AR 72902 T19 T3 CLEAN P/T CLEAN Phone: Ozark Mountain Poultry farms, LLC 1420 MGM MSM AI 183 C St Louis St Batesville, AR 72503 T CLEAN P/T CLEAN Phone: Peco Foods 1600 White Drive Batesville, MGM MSM AI 108 C AR 72501 T CLEAN P/T CLEAN Phone: Pilgrim's Pride Corp. P.O. Box MG MS AI CLEAN P/T 189 C 811 Nashville, AR 71852 T CLEAN Phone: Simmons Foods Inc. P.O. Box 430 Siloam MGM MSM AI 185 C Springs, AR 72761 5503680 T9 T19 CLEAN P/T CLEAN Phone: Tyson Foods Inc. 1115 South MGM MSM AI 175 C Elmira Russellville, AR 72801 T CLEAN P/T CLEAN Phone: Tyson Foods Inc. P.O. Box 576 Green 221 C Forest, AR 72638 T AI CLEAN P/T CLEAN Phone: Tyson Foods Inc. P.O. Box 219 C 507 Murfreesboro, AR 71842 T AI CLEAN P/T CLEAN Phone: Tyson Foods Inc. -
National Poultry Improvement Plan
Historic, archived document Do not assume content reflects current scientific knowledge, policies, or practices. Jius / / d T(o TJz £f\ United States ^«& Department of Agriculture National Poultry _ Animal and _ -}— Plant Health Inspection Improvement Plan Service Veterinary Services 1981 Directory of Participants APHIS 91-42 Handling Waterfowl, February 1 981 Exhibition Poultry, and Game Birds NATIONAL POULTRY IMPROVEMCNT PLAN U.S. J U.S. | Jush [Pullorum-Typhoic 7 S M.Gollisepticum ^ APPROVED m TCLEANj * *! CLEANF npip! ^H^IPB^pV BJ B* The National Poultry Improvement Plan became operative July 1, 1935, and the National Turkey Improvement Plan became operative September 25, 1943, with the approval of the Secretary of Agriculture. On December 3, 1971, the two Plans were combined under one title, "The National Poultry Improvement Plan," with separate provisions applicable to the different types of poultry. The Plan operates under the authority of an appropriation made by Congress to the United States Department of Agriculture to be used in cooperation with the State authorities in the administration of regulations for the improvement of poultry, poultry products, and hatcheries. Authority for the administration of the Plan is now contained in the Department of Agriculture Organic Act of 1944, as amended (7 U.S.C. 429). Provisions of the Plan are changed from time to time to conform with the development of the industry and with new information as it becomes available. These changes are based on recommendations made at the Biennial National Plan Conferences by official delegates representing participating breeders, hatcheries, and flockowners from all cooperating States. Current provisions of the Plan are described in a publication entitled "The National Poultry Improvement Plan and Auxiliary Provisions." The publication is available from Official State Agencies or on request to the National Poultry Improvement Plan, APHIS-VS, Building 265, BARC- East, Beltsville, Maryland 20705. -
Heater Element Specifications Bulletin Number 592
Technical Data Heater Element Specifications Bulletin Number 592 Topic Page Description 2 Heater Element Selection Procedure 2 Index to Heater Element Selection Tables 5 Heater Element Selection Tables 6 Additional Resources These documents contain additional information concerning related products from Rockwell Automation. Resource Description Industrial Automation Wiring and Grounding Guidelines, publication 1770-4.1 Provides general guidelines for installing a Rockwell Automation industrial system. Product Certifications website, http://www.ab.com Provides declarations of conformity, certificates, and other certification details. You can view or download publications at http://www.rockwellautomation.com/literature/. To order paper copies of technical documentation, contact your local Allen-Bradley distributor or Rockwell Automation sales representative. For Application on Bulletin 100/500/609/1200 Line Starters Heater Element Specifications Eutectic Alloy Overload Relay Heater Elements Type J — CLASS 10 Type P — CLASS 20 (Bul. 600 ONLY) Type W — CLASS 20 Type WL — CLASS 30 Note: Heater Element Type W/WL does not currently meet the material Type W Heater Elements restrictions related to EU ROHS Description The following is for motors rated for Continuous Duty: For motors with marked service factor of not less than 1.15, or Overload Relay Class Designation motors with a marked temperature rise not over +40 °C United States Industry Standards (NEMA ICS 2 Part 4) designate an (+104 °F), apply application rules 1 through 3. Apply application overload relay by a class number indicating the maximum time in rules 2 and 3 when the temperature difference does not exceed seconds at which it will trip when carrying a current equal to 600 +10 °C (+18 °F). -
K-12 Individual No. Name Team Gr Rate Pts Tbrk1 Tbrk2 Tbrk3 Tbrk4
K-12 Individual No. Name Team Gr Rate Pts TBrk1 TBrk2 TBrk3 TBrk4 Rnd1 Rnd2 Rnd3 Rnd4 Rnd5 Rnd6 1 Chakraborty, Dipro 11 2299 5.5 21 24 43 20.5 W27 W12 W5 W32 W8 D3 State Champion, AZ Denker Representative 2 Yim, Tony Sung BASISS 8 2135 5 20.5 23.5 38.5 17.5 W24 W10 D3 D16 W11 W9 3 Aletheia-Zomlefer, Soren CHANPR 11 1961 5 20 23 35.5 18.5 W25 W26 D2 W40 W15 D1 4 Desmarais, Nicholas Eduard NOTRED 10 1917 5 18 20 33 18 W39 W23 W18 L15 W10 W8 5 Wong, Kinsleigh Phillip CFHS 10 1992 4.5 20 20 24.5 15 -X- W17 L1 W26 D7 W15 6 Todd, Bryce BASISC 10 1923 4.5 17 19 26.5 14.5 W38 D18 L9 W23 W21 W16 7 Chaliki, Kalyan DSMTHS 9 1726 4.5 17 18.5 26 15 W46 L16 W28 W22 D5 W17 8 Li, Bohan UHS 9 2048 4 22 25 29 18 W30 W11 W45 W9 L1 L4 9 Mittal, Rohan CFHS 9 1916 4 19.5 20.5 23 17 W47 W22 W6 L8 W20 L2 10 Pennock, Joshua CFHS 10 1682 4 19 22 24 14 W31 L2 W25 W21 L4 W29 11 Aradhyula, Sumhith CFHS 9 1631 4 18 20 22 14 W41 L8 W38 W13 L2 W19 12 Johnston, Nicolas Godfrey CFHS 9 1803 4 18 19.5 21 13 W43 L1 W29 L17 W24 W20 13 Martis, Tyler BRHS 12 1787 4 17 18 21 13 W42 L15 W24 L11 W18 W22 14 Plumb, Justin Rodney GCLACA 10 1700 4 16 17 20 13 W51 L32 W19 L20 W28 W27 15 Martinez, Isaac GLPREP 10 2159 3.5 21.5 24.5 27.5 16 W28 W13 D16 W4 L3 L5 16 Chen, Derek H CFHS 10 1965 3.5 21 23.5 26 15.5 W35 W7 D15 D2 D17 L6 17 Woodson, Tyler GILBHS 1640 3.5 19 19 17.5 14 W50 L5 W30 W12 D16 L7 18 Cancio, Aiya CFHS 9 1469 3.5 18.5 20 17.5 12.5 W36 D6 L4 W46 L13 W25 AZ Girls' Invitational Representative 19 Folden, Kurt CHANPR 10 1207 3 14 18 12 10 L32 W50 L14 W31 W23 L11 20 Thornton, -
Experience a Lower Total Cost of Ownership
EXPERIENCE A LOWER TOTAL COST OF OWNERSHIP Timken® Spherical Roller Bearings are engineered to give you more of what you need. Lower Operating Temperatures Rollers are guided by cage pockets—not a center guide ring—eliminating a friction point and resulting in 4–10% less rotational torque and 5ºC lower operating temperatures.* Less rotational torque leads to improved efficiency, lower energy consumption and more savings. Lower temperatures reduce the oil oxidation rate by 50% to extend lubricant life. Tougher Protection Hardened steel cages deliver greater fatigue strength, increased wear resistance and tougher protection against shock and acceleration. Optimized Uptime Unique slots in the cage face improve oil flow and purge more contaminants from the bearing to help extend equipment uptime. Minimized Wear Improved profiles reduce internal stresses and optimize load distribution to minimize wear. Improved Lube Film Enhanced surface finishes avoid metal-to-metal contact to reduce friction and result in improved lube film. Higher Loads Longer rollers result in 4–8% higher load ratings or 14–29% longer predicted bearing life. Higher load ratings enable you to carry heavier loads. Brass Cages Available in all sizes; ready when you need extra strength and durability in the most unrelenting conditions, including extreme shock and vibration, high acceleration forces, and minimal lubrication. Increase your operational efficiencies and extend maintenance intervals. Starting now. Visit Timken.com/spherical to find out more. *All results are from head-to-head -
Case I,I,Emptyset,P7.Nb
Definitions: In[56]:= $Assumptions = w12 ≥ 0 && w13 ≥ 0 && w16 ≥ 0 && w24 ≥ 0 && w25 ≥ 0 && w36 ≥ 0 && w45 ≥ 0 && u > 0 && v > 0 && w21 ≥ 0 && w31 ≥ 0 && w61 ≥ 0 && w42 ≥ 0 && w52 ≥ 0 && w63 ≥ 0 && w54 ≥ 0 && K34 > 0 && K56 > 0 && K31 > 0 && K51 > 0 w = {{0, w12, w13, 0, 0, w16}, {w21, 0, 0, w24, w25, 0}, {w31, 0, 0, u, 0, w36}, {0, w42, u / K34, 0, w45, 0}, {0, w52, 0, w54, 0, v}, {w61, 0, w63, 0, v / K56, 0}} Out[56]= w12 ≥ 0 && w13 ≥ 0 && w16 ≥ 0 && w24 ≥ 0 && w25 ≥ 0 && w36 ≥ 0 && w45 ≥ 0 && u > 0 && v > 0 && w21 ≥ 0 && w31 ≥ 0 && w61 ≥ 0 && w42 ≥ 0 && w52 ≥ 0 && w63 ≥ 0 && w54 ≥ 0 && K34 > 0 && K56 > 0 && K31 > 0 && K51 > 0 Out[57]= {0, w12, w13, 0, 0, w16}, {w21, 0, 0, w24, w25, 0}, {w31, 0, 0, u, 0, w36}, u v 0, w42, , 0, w45, 0, {0, w52, 0, w54, 0, v}, w61, 0, w63, 0, , 0 K34 K56 In[58]:= MatrixForm[w] Out[58]//MatrixForm= 0 w12 w13 0 0 w16 w21 0 0 w24 w25 0 w31 0 0 u 0 w36 0 w42 u 0 w45 0 K34 0 w52 0 w54 0 v w61 0 w63 0 v 0 K56 Sum of rows In[59]:= d = Table[Total[w[[i, All]]], {i, 6}] d34 = Collect[Expand[d[[3]] * d[[4]] - w[[3, 4]] * w[[4, 3]]], u] d56 = Collect[Expand[d[[5]] * d[[6]] - w[[5, 6]] * w[[6, 5]]], v] u v Out[59]= w12 + w13 + w16, w21 + w24 + w25, u + w31 + w36, + w42 + w45, v + w52 + w54, + w61 + w63 K34 K56 w31 w36 Out[60]= w31 w42 + w36 w42 + w31 w45 + w36 w45 + u + + w42 + w45 K34 K34 w52 w54 Out[61]= w52 w61 + w54 w61 + w52 w63 + w54 w63 + v + + w61 + w63 K56 K56 Effective reaction rates after elimination of metabolites 5 and 6 (useful for easy differentiation w.r.to u), and the final effective reaction rate -
Interchange: Spherical Roller Bearings for Paper Industry
We pioneer motion Interchange: Spherical Roller Bearings for Paper Industry Preferred Preferred Schaeffler SKF NSK Timken Schaeffler Description Schaeffler Alternative Schaeffler Alternative Straight Bore Tapered Bore Standard C / CC EA / C / CD EJ Pressed steel cage M M — EM / YM One-piece brass cage, roller guided MA / MA1 MA — — Machined brass cage, OR guided MB / MB1 CA / CAC CAM / AM EMB / YMB Machined brass cage, inner ring guided, center flange K K K K Tapered bore (1:12 on diameter) K30 K30 K30 K30 Tapered bore (1:30 on diameter) 240...., 241..., 242... Series C3 C3 C3 C3 Radial clearance larger than normal C4 C4 C4 C4 Radial clearance larger than C3 W209B ECB / HA3 g3 W40I Case hardened inner ring T52BE C02 P53 C02 P5 running accuracy for the inner ring + J26A H140 T52BW T52BN C04 P52 C04 P5 running accuracy for the outer ring + J26B H140 T52BW T52BW C08 P55 C08 T52BE + T52BN H140 T52BW T52BW-C3 C083 P55 C3 C08C3 T52BW with C3 clearance H140-C3 T52BW-C3 T52BW-C4 C084 P55 C4 C08C4 T52BW with C4 clearance H140-C4 T52BW-C4 H40 W — W841 No lubricating groove or lubricating holes in the outer ring — W31 W31 W31 Obsolete Beloit quality standard W33 Standard E4 W33 lubricating groove and 3 lubricating holes in the outer ring W506 = W33+W31 W503 = W4+W33 W4+E4 W4 J26A Point of max. radial runout marked on inner ring or sleeve H140 T52BW W507 = W4+W33+W31 W507 W507 J26B W529 = W58+W33 — — Point of max. radial runout marked on outer ring H140 T52BW J26C W515 — — Point of max. -
WMA Champ Meet Hy-Tek's MEET MANAGER 9:33 PM 7/14/21 Page 1
USA Masters TandF -WMA Champ Meet Hy-Tek's MEET MANAGER 9:33 PM 7/14/21 Page 1 2021 USATF Northwest Masters Outdoor Track & Field Championships - 7/17/21 2021 PNTF Open Championships West Seattle Stadium Meet Program - day of meet Section 2 of 6 Finals Event 1 X50-79 5000 m Race Walk 1 147 Smith, Joe M65 So Cal Track NT Saturday 7/17/21 - 8:45 AM 2 107 Ortman, David M68 Syracuse Cha 13.66 Lane Name Age Team Seed Time 3 49 Harvey, Larry M68 Unattached 16.00 Section 1 of 1 Finals 4 3 Ahearn Jr., Leo M65 Unattached 15.39 1 6 Anderson, Edwin M77 Unattached 33:32.00 5 74 Kloch, Stephen M69 So Cal Track 15.25 2 106 Novak, Robert M72 Unattached 35:00.00 6 124 Price, Larry M67 Unattached 16.22 3 69 Kale, Barton M65 Unattached 35:00.00 7 62 Jacquet-Acea, Russell M68 Unattached 14.12 4 125 Rehder, William M64 Racewalkers 32:30.50 Section 3 of 6 Finals 5 64 Jiang, Peigen M57 Unattached NT 2 28 Copeland, Scott M62 Barron Park 14.23 6 157 Thurman, Diana W74 Unattached 37:25.00 3 58 Huarcaya, Luis M62 Peru 13.35 7 158 Tuberg, Ann W61 Unattached 34:00.00 4 4 Allen, Ira M62 Unattached 13.30 8 161 Van Dyke, Mardi W56 Unattached 32:25.00 5 109 Pasos, Mark M61 Unattached 13.50 9 19 Bridges, Debra W55 Unattached 31:01.00 6 96 Midder, Robert M63 Unattached 15.25 Event 2 X30-84 5000 m Section 4 of 6 Finals 2 101 Monroe, Daren M53 Unattached 14.00 Saturday 7/17/21 - 9:25 AM 3 52 Helmstetter, Andre M55 Unattached NT Lane Name Age Team Seed Time 4 45 Gates, David M54 Oregon Track 13.50 Section 1 of 1 Finals 5 44 Gaskin Sr., Derek M55 Unattached 12.98 1 22 Carter, -
LA Express Quick Ship Program
EXPRESS VOLUME 3 SOFAS SECTIONALS CHAIRS BEDS FABRICS FOR HICKORY WHITE LA EXPRESS: LA6258S Hinson Sofa (see page 3) 70+ Frames 100+ Fabrics 4 to 6 Week Shipping FOR IN-STOCK FABRICS Our best-selling Lillian August sofas, chairs and beds are now able to be shipped in 20 working days from date of acknowledgment. Available in our most popular Designer Select fabrics, these combinations of fabric and frame are the tried and proven top performers. Mark all orders LA EXPRESS. Note: Standard throw pillows must be in a quick ship fabric and wood finish must be in a standard finish to receive all program benefits. Click on the photo of any product for more details. LA7116S Paris Sofa (shown) Loose pillow back (two) Overall: W97 D39 H35 Inside: W87 D22 H17 Arm height: 28 Seat height: 19 Standard pillows: two 21" throw pillows Standard with #1-P nail trim, spaced as shown. Standard with casters. Available in any standard finish. LA7113S Royce Court Sofa (shown) Loose pillow back (two) ALSO AVAILABLE: Overall: W87 D37 H37 Inside: W81 D20 H19 LA7116L Paris Loveseat Arm height: 23 Seat height: 19 Loose pillow back (two) Two seat cushions Overall: W67 D39 H35 Inside: W57 D22 H17 Dressmaker skirt Arm height: 28 Seat height: 19 Standard pillows: two 21" throw pillows ALSO AVAILABLE: Standard with #1-P nail trim. LA7113M Royce Court Mid Sofa Standard with casters. Loose pillow back (two) Available in any standard finish. Overall: W77 D37 H37 Inside: W71 D20 H19 Arm height: 23 Seat height: 19 LA7116M Paris Mid-Sofa Two seat cushions Loose pillow back (two) Dressmaker skirt Overall: W87 D39 H35 Inside: W77 D22 H17 Arm height: 28 Seat height: 19 LA7113C Royce Court Chair (see page 22) Standard pillows: two 21" throw pillows Standard with #1-P nail trim. -
L-Reactor Operation Savannah River Plant
DOE/EIS-0108 Volume 3 of 3 FINAL ENVIRONMENTAL IMPACT STATEMENT L-Reactor Operation Savannah River Plant Aiken, S.C. Volume 3 May 1984 U.S. Department of Energy APPENDIX M COMMENTS AND DOE RESPONSES ON DRAFT ENVIRONMENTAL IMPACT STATEMENT L-REACTOR OPERATION During the 45-day public comment period from October 1 through November 14, 1983, the U.S. Department of Energy (DOE) received 140 comment letters and statements on the draft version of this environmental impact statement (EIS) . In addition, four comment letters were received after November 14, 1983. Of the total of 144 letters afld statements, 7 were from Federal agencies and 7 were from agencies and off ices of the States of Georgia and South Carolina. Forty- eight statements were presented at public meetings conducted by DOE at Augusta and Savannah, Georgia, and at Aiken and Beau fort, South Carolina, during the week of October 31, 1983. DOE has prepared a public comment/hearing report (DOE /SR - 5009) that includes transcripts of these public meetings, written statements received at the meetings , and all comment letters received by DOE through the mail . This report has been placed in the DOE public documents rooms in Washington, D.C. , and Aiken, South Carolina, and 19 local libraries in South Carolina and Georgia. This appendix presents the individual comment letters and statements and DOE’ s responses to them. If a comment or statement has led to a revision to the text of this EIS, the revision is identified by a vertical line in the margin and a comment letter-number designation. -
Report- Non Strategic Nuclear Weapons
Federation of American Scientists Special Report No 3 May 2012 Non-Strategic Nuclear Weapons By HANS M. KRISTENSEN 1 Non-Strategic Nuclear Weapons May 2012 Non-Strategic Nuclear Weapons By HANS M. KRISTENSEN Federation of American Scientists www.FAS.org 2 Non-Strategic Nuclear Weapons May 2012 Acknowledgments e following people provided valuable input and edits: Katie Colten, Mary-Kate Cunningham, Robert Nurick, Stephen Pifer, Nathan Pollard, and other reviewers who wish to remain anonymous. is report was made possible by generous support from the Ploughshares Fund. Analysis of satellite imagery was done with support from the Carnegie Corporation of New York. Image: personnel of the 31st Fighter Wing at Aviano Air Base in Italy load a B61 nuclear bomb trainer onto a F-16 fighter-bomber (Image: U.S. Air Force). 3 Federation of American Scientists www.FAS.org Non-Strategic Nuclear Weapons May 2012 About FAS Founded in 1945 by many of the scientists who built the first atomic bombs, the Federation of American Scientists (FAS) is devoted to the belief that scientists, engineers, and other technically trained people have the ethical obligation to ensure that the technological fruits of their intellect and labor are applied to the benefit of humankind. e founding mission was to prevent nuclear war. While nuclear security remains a major objective of FAS today, the organization has expanded its critical work to issues at the intersection of science and security. FAS publications are produced to increase the understanding of policymakers, the public, and the press about urgent issues in science and security policy. -
NSS Spring 2019.Indd
PHOTOBOMB ▼ The accelerators at the Dual-Axis Radiographic Hydrodynamic Test (DARHT) facility produce intense, high-energy electron beams that generate radiographs (x-rays) of nuclear-type explosions. These images help validate computer simulations of nuclear weapon performance. Photo: Michael Pierce IN THIS ISSUE 2 Letters: Innovation National security depends on pioneering scientists and engineers who respond to challenges with new, o en-surprising, ideas. 4 Abstracts: Notes and news from around the Lab Director om Mason takes the helm at Los Alamos, the Laboratory 2 4 wins eight “Oscars of Invention”, and more. FEATURES 10 Faces of innovation: Meet 10 seven scientists and engineers whose 24 groundbreaking ideas, experiments, and data have big implications for national security. 24 Beyond Trinity: 75 years of weapons advances In addition to creating the world’s rst nuclear device, Los Alamos has made nuclear weapons more e ective, safe, and speci c to military needs. 34 Additive manufacturing: The power of powder At the Laboratory’s Sigma Complex, metal components are created with powder, layer by layer, to 34 withstand extreme environments. 44 Analysis: The science of policy ree members of the National Nuclear Security Administration (NNSA) share their thoughts on innovation and how having a science background is important for shaping policy. 44 46 Being Essential: The need for speed Je rey Luehring is all about parts —weapons parts for his job in materials management and boat parts for the jet boat he drag races. 48 Accolades: e distinguished 46 achievements of Los Alamos employees. 49 Looking Back: A scuba diver explores the wreckage of the USS Arkansas, which ABOUT THE COVER: was sunk during the 1946 Baker test of Technical Area 3—the administrative 49 Operation Crossroads.