CIM-10 Bomarc (English Wikipedia)

Analysis of information sources in references of the Wikipedia article "CIM-10 Bomarc" in English language version.

refsWebsite
Global rank English rank
1st place
1st place
5th place
5th place
low place
low place
3rd place
3rd place
223rd place
162nd place
6th place
6th place
70th place
63rd place
325th place
255th place
115th place
82nd place
439th place
283rd place
7,949th place
7,411th place
1,290th place
1,111th place
32nd place
21st place
5,569th place
3,691st place
low place
low place
1,935th place
1,200th place
833rd place
567th place
low place
low place
14th place
14th place
4,862nd place
5,893rd place
7,865th place
5,092nd place
2,056th place
1,541st place
low place
low place
low place
low place
low place
low place
2,021st place
2,440th place

accessmylibrary.com

af.mil

secretsdeclassified.af.mil

  • IM-99 Weapon System: 26 October – 28 November 1958 (PDF) (Report). 17 December 1958. Archived from the original (PDF) on 18 February 2013. Retrieved 4 August 2013. technical training facility at Eglin Air Force Auxiliary Field Number 9. The IM-99A and IM-99B warheads (W-40) The IM-99B had been designed to include a "Pattern Patrol" type operation. Missiles could be launched in multiples, or at very close intervals and guided in a line abreast type formation with target seekers operating in search mode. This would provide a capability to patrol a given area where targets were suspected but where definite tracks had not been established.

nationalmuseum.af.mil

archive.org

archive.today

astronautix.com

  • "Bomarc". Encyclopedia Astronautica. Archived from the original on 17 August 2013. Retrieved 7 August 2013. Promising [GAPA] results led to Boeing receiving a USAF contract in 1949 to develop the exotic MX-1599 ramjet-powered, nuclear-armed long-range surface-to-air missile for defense of the continental United States from high-altitude bombers. The last Bomarc A was phased out in December 1964. In April 1972 the last Bomarc B was retired. Test flights of XF-99 test vehicles began in September 1952 and continued through early 1955. The XF-99 tested only the liquid-fueled booster rocket, which would accelerate the missile to ramjet ignition speed. In February 1955, tests of the XF-99A propulsion test vehicles began. These included live ramjets, but still had no guidance system or warhead. The designation YF-99A had been reserved for the operational test vehicles. In August 1955, the USAF discontinued the use of aircraft-like type designators for missiles, and the XF-99A and YF-99A became XIM-99A and YIM-99A.

boeing.com

  • Lombardi, Michael. "Reach for the sky" (PDF). Boeing Frontiers. Archived (PDF) from the original on 20 October 2011. Retrieved 3 November 2018.

books.google.com

  • The SAGE/Bomarc Air Defense Weapons System: An Illustrated Explanation of What it is and How it Works (fact sheet) (Report). New York: International Business Machines Corporation. 1959. Retrieved 23 April 2013. BOMARC Crew training was activated January 1, 1958. The operator requests an "engagement prediction point" from the IBM computer. Missile guidance information is relayed via leased lines to Cape Canaveral, and via radio to the BOMARC missile. AN/FPS-20 long-range search radar at Patrick Air Force Base Alt URL (cited by History of Strategic Air and Ballistic Missile Defense: Volume I, p. 257.)
  • "Will NIKE Protect Us from Red Bombers?". Popular Science. Vol. 169, no. 3. 1 September 1956. pp. 152–155. ISSN 0161-7370. OCLC 488612811. Retrieved 18 February 2021.

cbc.ca

dtic.mil

flightglobal.com

  • BOMARC: Boeing's Long-range A.A. Missile (PDF), FlightGlobal, 24 May 1957, p. 687, archived (PDF) from the original on 9 October 2022, retrieved 4 August 2013, Development of the electronic guidance was assisted by simulated IM-99 nose sections, pressurized by nitrogen and cooled by ammonia, fitted to a T-33 and a B-57, the pilot of these aircraft cutting out the guidance and breaking away from the collision course as the target was neared. … 70 per cent subcontracted: prime contractor, Boeing (assembly of missiles at the main Seattle plant, Pilotless Aircraft Division); cruise propulsion, Marquardt; boost propulsion, Aerojet-General; guidance and control, Westinghouse Air Arm Division; ground control gear, Westinghouse Electronics Division; ground-support and test gear, Farnsworth Division of I.T. and T.; airborne electronic intelligence, Lear (LearCal and Grand Rapids Divisions); nose of missile, Pastushin (glass fibre, leaves radar beams undistorted).
  • Zeus 1962, p. 165. "Nike Zeus". Flight International: 165–170. 2 August 1962. ISSN 0015-3710. Retrieved 13 May 2013.

garagehangover.com

  • "The Bomarcs", Garage Hangover, Chris Bishop, 2007-08-22

ghostarchive.org

  • BOMARC: Boeing's Long-range A.A. Missile (PDF), FlightGlobal, 24 May 1957, p. 687, archived (PDF) from the original on 9 October 2022, retrieved 4 August 2013, Development of the electronic guidance was assisted by simulated IM-99 nose sections, pressurized by nitrogen and cooled by ammonia, fitted to a T-33 and a B-57, the pilot of these aircraft cutting out the guidance and breaking away from the collision course as the target was neared. … 70 per cent subcontracted: prime contractor, Boeing (assembly of missiles at the main Seattle plant, Pilotless Aircraft Division); cruise propulsion, Marquardt; boost propulsion, Aerojet-General; guidance and control, Westinghouse Air Arm Division; ground control gear, Westinghouse Electronics Division; ground-support and test gear, Farnsworth Division of I.T. and T.; airborne electronic intelligence, Lear (LearCal and Grand Rapids Divisions); nose of missile, Pastushin (glass fibre, leaves radar beams undistorted).

globaldogproductions.info

joebaugher.com

loc.gov

lccn.loc.gov

musicstack.com

northcom.mil

  • Preface by Buss, L. H. (Director) (1 May 1960). North American Air Defense Command and Continental Air Defense Command Historical Summary: July–December 1959 (PDF) (Report). Directorate of Command History: Office of Information Services. "On 7 October 1959, NORAD provided guidance on this to ADC as follows. Gap fillers will be redeployed to provide low altitude coverage (500 feet) 230 nautical Jl1il~s forward and 150 miles to the rear of all BOMARC launch sites … Criteria for BOMARC coverage is that no lateral gaps exceed 25 nautical miles (normal terrain) at a curve of constant altitude of 300 feet… Directional antennas and high power amplifiers tor the ground-to-air transmitter sites will be programmed and deployed only as required to support BOMARC operations. NORAO Objective Plan 1961–1965 … called for an F-101 squadron for Comox AB, Canada, and a BOMARC squadron for Paine AFB, Washington. To control these squadrons, NORAD also provided for an AN/FPS-28 for the Queen Charlotte Islands. … total off-shore coverage, available from ALRI and land-based sources, would permit use of the BOMARC B only to approximately 70 per cent of its low-altitude and 50 per cent of its high-altitude range capability. In the last six months of 1959. two IM-99A squadrons became operational and assumed an air defense role. The first was the 46th Air Defense Missile Squadron (BOMARC) based at McGuire AFB, New Jersey…activated on 1 January 1959, operational on 1 September 1959 with three missiles. …the 6th Air Defense Missile Squadron (BOMARC) at Suffolk 6th ADMS activated on 1 February 1959, operational on 1 December 1959. As of 1 January 1960. the McGuire squadron had 24 IM-39A missiles and the Suffolk squadron had four missiles available for air defense. The 26th ADMS, activated at Otis AFB, Massachusetts, on 1 March 1359; the 30th ADMS, activated on 1 June 1959 at Dow AFB. Maine; and the 22nd ADMS, activated on 1 September 1959 at Langley AFB, Virginia. These units were expected to become operational in 1960. NADOP 1959–1963, dated 16 December 1958 [planned for] FY 1963 of 36 IM-99B sites and 2,772 launchers. [32] in the U. S. (excluding Alaska), two in the [Alaska] 64th Air Div1sion area, and two in Canada. In March 1960, the JCS told NORAD that they were considering reducing the BOMARC program to eight U.S. and two Canadian squadrons."

openlibrary.org

radomes.org

rateyourmusic.com

thecanadianencyclopedia.com

  • Buteux, Paul. "Bomarc Missile Crisis". The Canadian Encyclopedia. Toronto: Historica Foundation, 2012. Archived from the original on 21 January 2013. Retrieved 11 August 2012.

uni-stuttgart.de

bitsavers.informatik.uni-stuttgart.de

  • The SAGE/Bomarc Air Defense Weapons System: An Illustrated Explanation of What it is and How it Works (fact sheet) (Report). New York: International Business Machines Corporation. 1959. Retrieved 23 April 2013. BOMARC Crew training was activated January 1, 1958. The operator requests an "engagement prediction point" from the IBM computer. Missile guidance information is relayed via leased lines to Cape Canaveral, and via radio to the BOMARC missile. AN/FPS-20 long-range search radar at Patrick Air Force Base Alt URL (cited by History of Strategic Air and Ballistic Missile Defense: Volume I, p. 257.)

usask.ca

villagesoup.com

thesandpaper.villagesoup.com

web.archive.org

  • Lombardi, Michael. "Reach for the sky" (PDF). Boeing Frontiers. Archived (PDF) from the original on 20 October 2011. Retrieved 3 November 2018.
  • IM-99 Weapon System: 26 October – 28 November 1958 (PDF) (Report). 17 December 1958. Archived from the original (PDF) on 18 February 2013. Retrieved 4 August 2013. technical training facility at Eglin Air Force Auxiliary Field Number 9. The IM-99A and IM-99B warheads (W-40) The IM-99B had been designed to include a "Pattern Patrol" type operation. Missiles could be launched in multiples, or at very close intervals and guided in a line abreast type formation with target seekers operating in search mode. This would provide a capability to patrol a given area where targets were suspected but where definite tracks had not been established.
  • "46th Air Defense Missile Squadron." Archived 5 September 2017 at the Wayback Machine NYADS 1960 Yearbook. Retrieved 28 September 2010.
  • Rademacher; et al. (28 August 2007). …Missile Shelters and Bunkers Scoping Survey Workplan (Report). Vol. ADA471460. Air Force Institute of Operational Health. Archived from the original on 12 August 2013. Retrieved 9 December 2018.
  • Buteux, Paul. "Bomarc Missile Crisis". The Canadian Encyclopedia. Toronto: Historica Foundation, 2012. Archived from the original on 21 January 2013. Retrieved 11 August 2012.
  • CBC Digital Archives. "Voice of Women protest nuclear testing". CBC News, 26 March 2012. Toronto. Archived from the original on 3 November 2013. Retrieved 11 August 2012.
  • "The Nuclear Question in Canada (1957–1963)". Diefenbaker Canada Centre. Regina, Saskatchewan: University of Saskatchewan. Archived from the original on 20 April 2012. Retrieved 11 August 2012.
  • "Cold War Canada: The Voice of Women". Canada: A People's History, 2001. Toronto: CBC. Archived from the original on 2 January 2012. Retrieved 11 August 2012.
  • "Bomarc". Encyclopedia Astronautica. Archived from the original on 17 August 2013. Retrieved 7 August 2013. Promising [GAPA] results led to Boeing receiving a USAF contract in 1949 to develop the exotic MX-1599 ramjet-powered, nuclear-armed long-range surface-to-air missile for defense of the continental United States from high-altitude bombers. The last Bomarc A was phased out in December 1964. In April 1972 the last Bomarc B was retired. Test flights of XF-99 test vehicles began in September 1952 and continued through early 1955. The XF-99 tested only the liquid-fueled booster rocket, which would accelerate the missile to ramjet ignition speed. In February 1955, tests of the XF-99A propulsion test vehicles began. These included live ramjets, but still had no guidance system or warhead. The designation YF-99A had been reserved for the operational test vehicles. In August 1955, the USAF discontinued the use of aircraft-like type designators for missiles, and the XF-99A and YF-99A became XIM-99A and YIM-99A.
  • "Factsheets : Boeing XF-99." Archived 17 January 2014 at the Wayback Machine Nationalmuseum.af.mil. Retrieved: 18 September 2013.

worldcat.org

search.worldcat.org