Friday, September 30, 2016

कमांडो को दी जाती है 15 दिनों तक जागने की ट्रेनिंग, इसलिए कहते हैं स्पेशल फोर्स


भोपाल। पठानकोट हमले के बाद सेना के कमांडो की बहादुरी के चर्चे हर तरफ हैं। खास ऑपरेशन के लिए तैयार इन जवानों की ट्रेनिंग बेहद कठिन और शरीर को थका देने वाली होती है। इस ट्रेनिंग में जो जवान खरा उतरता है, उसे ही स्पेशल फोर्स में शामिल किया जाता है। ट्रेनर की जुबानी सुनिए, कैसे तैयार होते हैं कमांडो क्यों कहते हैं स्पेशल फोर्सेज?

जबलपुर के रहने वाले कमांडोज मेंटर ग्रैंड मास्टर शिफुजी शौर्य भारद्वाज ने आर्मी डे पर  बताया था कि स्पेशल फोर्सेज का सेना की भाषा में मतलब होता है 'नो केजुअल्टी'। यदि स्पेशल फोर्स के 20 जवान लड़ने जाते हैं तो माना जाता है कि 20 जवान वापस लौटकर आएंगे। हालांकि कई दफा परिस्थितियों के कारण ऐसा नहीं हो पाता।

ऐसे होती है ट्रेनिंग :
- रोजाना 42 किमी दौड़ना
- 7 किमी पानी में तैरना
- 3200 पुशअप्स
- 25 अलग-अलग तरह की बेहद कठिन एक्टिविटी
- 42 किमी में से 12 किमी अपने से दोगुना वजन लेकर दौड़ना
- 22 घंटे की ट्रेनिंग, 2 घंटे की नींद

15 दिनों तक जागने की ट्रेनिंग
इन कमांडोज को इतनी ट्रेनिंग दी जाती है कि वे बिना खाए-पिये और सोए 15 दिनों तक लड़ाई करते रहें। ये कमांडोज 50 डिग्री से ज्यादा वाले रेगिस्तान और खून जमा देने वाले सियाचिन में भी लड़ाई के लिए हमेशा तैयार रहते हैं।

15 महीने से 3 साल तक की ट्रेनिंग
कमांडोज की यह ट्रेनिंग 15 महीने से 3 साल तक होती है। इसके बाद भी उन्हें हर दूसरे महीने में पहले के मुकाबले अपनी क्षमता लगातार बढ़ानी होती है।

ये हैं भारत की स्पेशल फोर्सेस
- मार्कोस
यह कमांडो वैसे तो भारतीय नौ सेना के जवान होते हैं, लेकिन किसी भी स्थिति में लड़ाई लड़ने में सक्षम होते हैं। भारत के सबसे बेहतरीन कमांडो इन्हें माना जाता है। मार्कोस कमांडो को थ्री डाइमेंशन फोर्स भी कहा जाता है।
- पैरा कमांडोज
2015 में म्यामांर में सर्जिकल ऑपरेशन पैरा कमांडोज ने ही किया था। इन कमांडोज को दुश्मन के इलाके में घुसकर बिना कोई सबूत छोड़े ऑपरेशन करने के लिए जाना जाता है। ये कमांडोज थल सेना के होते हैं।
- गरुड़ कमांडोज
भारतीय वायु सेना के इन कमांडोज ने भी पठानकोट एयरबेस में ऑपरेशन में हिस्सा लिया था। 6 गोली लगने के बाद भी 1 घंटे तक लड़ने वाला जांबाज गरुड़ कमांडोज फोर्स का था। ये हवा और पृथ्वी के माहिर होते है।
- एनएसजी
एनएसजी कमांडोज को ही ब्लेक कैट कमांडोज के नाम से जाना जाता है। 2008 के मुंबई हमले जैसे ऑपरेशन में एनएसजी फोर्स का उपयोग किया गया। इन कमांडोज को दुनिया के सबसे बहादुर कमांडोज में से एक माना जाता है।























इस हेलीकॉप्टर से हुआ Surgical strike, जानें क्या है इसकी खासियत


ग्वालियर। LOCके पार हमारी सेना ने Surgical strike में ध्रुव हेलीकॉप्टर का इस्तेमाल किया है। देश में ही बना ध्रुव हेलीकॉप्टर, जिसे हिंदुस्तान एयरोनॉटिक्स लिमिटेड ने विकसित किया है। इस हेलीकॉप्टर को आर्मी के अलावा एयरफोर्स और नेवी तीनों को बनाकर दिया गया है। ऐसे होती है प्रैक्टिस........
आर्मी के पास है ध्रुव का रुद्र वर्जन
-जिस ध्रुव हेलीकॉप्टर से आर्मी ने सर्जिकल स्ट्राइक किया, वह रुद्र वर्जन था। इस रुद्र हेलीकॉप्टर में नाग मिसाइल सिस्टम है।
-यही नहीं रुद्र दुश्मन के मिसाइल हमले का पहले अनुमान लगाकर दिशा बदलने की क्षमता रखता है।
-ध्रुव में इंफ्रारेड और थर्मल इमेजिंग सिस्टम है, जो पहले से खतरे का अनुमान लगाकर स्ट्राइक करने में सक्षम हैं।

देखिए ध्रुव हेलीकॉप्टर के आसमान में करतब.........











Thursday, July 14, 2016

Solar Impulse 2 soars over pyramids as it lands in Egypt

After the two-day flight from Spain, just one final leg lies between it and its final destination, Abu Dhabi, where it started its odyssey in March last year.
The aircraft landed in Spain last month, after completing the first solo transatlantic flight powered only by sunlight.
After setting off from Seville on Monday morning, the plane passed through Algerian, Tunisian, Italian and Greek airspace, and flew over the Giza Pyramids before touching down at Cairo airport at around 7.10am (0510 GMT).
Its support crew cheered as the plane, no heavier than a car but with the wingspan of a Boeing 747, landed, and trailed after it on bicycles.
It had finished the 3,745km journey with an average speed of 76.7 kph, the flight organiser said in a press release.
“It was fantastic, everything worked well,” pilot Andre Borschberg told the control tower, as a live stream from the cockpit was broadcast on Solar Impulse 2’s Facebook page.
He emerged from the cockpit and hugged Bertrand Piccard, with whom he has taken turns flying the plane around the world.
Solar Impulse is being flown on its 35,400-km trip in stages, with Piccard and his Swiss compatriot Borschberg alternating at the controls of the single-seat plane.
Picard, who had arrived early to greet the aircraft, told reporters that flying Solar Impulse 2 showed what new technologies can do.
‘Reality of today’
It had completed its flight from New York to Seville in 71 hours, flying through the night with the energy stored in its 17,000 photovoltaic cells.
“It’s a new era for energy,” he said.
“I love to fly this plane because when you are in the air for several days you have the impression to be in a film of science fiction,” he said.
“You look at the sun, you look at your motors, they turn for days and for days, no fuel. And you think that’s a miracle. That’s magic. It is actually the reality of today. This is what we can do with these new technologies.”
He said the pilot takes 20 minute naps during the long flights, as the plane inches across the sky.
Borschberg had piloted the plane in its 8,924km flight from Japan to Hawaii in 118 hours, breaking the previous record for the longest uninterrupted journey in aviation history.
“It is comfortable. But of course you need to train for that. You need to train to make some exercise in the capsule, in the cockpit, because otherwise after several days you cannot move your legs and your arms anymore,” Piccard said.
Borschberg and Piccard have said they want to raise awareness of renewable energy sources and technologies with their project.
But Piccard does not expect solar powered commercial planes any time soon.
“There will not be passengers very soon in solar airplanes like ours,” he said.
“But there will be passengers very soon in electric airplanes that we will charge on the ground.
“On the ground you can charge batteries and you can have short haul flights maybe 500km with 50 people flying in these planes” in a decade, he predicted.

Amber Rose gives Dax Shepard advice on how to have foursome


She is not the sort of lady one expects to go on national television to talk about flower arranging and embroidery.
And Amber Rose certainly underlined this point when she gave Dax Shepard advice on how to have a fun foursome with Conan O'Brien during an appearance on the funnyman's chat show on Tuesday.
Indeed the self-proclaimed 'sex positive' former girlfriend of Kanye West did not seem in the least bit uncomfortable when the idea was mooted on the TBS programme.

Wednesday, July 13, 2016

जब करना हो कुछ नया


अगर आप अपने रोज के काम को परफेक्शन के साथ नहीं कर पा रहे हैं। अपने काम में कुछ नया नहीं कर पा रहे। घिसे-पिटे आइडियाज से बाहर नहीं आ पा रहे, तो फिर आपको संयम रखते हुए सोचने की जरूरत है कि आखिर आपके साथ ऐसा क्यों हो रहा है? आपको जो काम मिला है, उसी में कुछ नया करके क्यों नहीं दिखा पा रहे? खुद को एकाग्र करने की कोशिश करें। इसके लिये कुछ ऐसा प्रेरणादायी पढ़ें, जो आपको आराम देने के अलावा आपमें आत्मविश्वास भी जगा सके। हममें से तमाम लोगों को इस बात का अहसास तो होता है कि वे प्रोफेशनल लाइफ में कुछ नया नहीं कर पा रहे हैं, लेकिन वे कभी ईमानदारी से यह नहीं सोचते कि इस नए के लिये उन्होंने खुद कितनी गंभीरता से प्रयास किया है? अगर अपने नजरिये को बदल लें, तो भीतर से बाहर तक सब जगह नया-नया ही लगेगा। अगर आप अपनी एक अलग और कामयाब पहचान बनाना चाहते हैं, तो चीजों को नए तरीके से करने की आदत डालें। आइए जानते हैं, ऐसी ही कुछ जरूरी बातें।
एकाग्रचित्त होकर करें काम आप चाहें, तो अपने हर काम को नए अंदाज में करके भी अलग पहचान बना सकते हैं। हालांकि, सबसे पहले यह समझना होगा कि आप किसके लिये काम कर रहे हैं? उसे किस तरह की चीजें पसंद हैं? आप अपने काम से उसे कितना प्रभावित कर रहे हैं? आपका काम कितना टू द प्वाइंट है? कहीं ऐसा तो नहीं कि आप चले थे कहीं और पहुंच गए कहीं। ऐसा होने का मतलब है कि आपका कॉन्सेप्ट क्लीयर नहीं है। इसके लिये आपको काम करने से पहले ही अच्छी तरह होमवर्क करने की जरूरत है ताकि सही फोकस के साथ आगे बढ़ें।
सुकून भी है जरूरी यह भी देखें कि आप जो वर्क कर रहे हैं, उससे खुद आपको कितना सुकून मिल रहा है? यह न सोचें कि आपके काम की आलोचना हो रही है।
उसके रिएक्शन में क्रोधित भी न हों। इसके बजाय आप यह सोचें कि आखिर ऐसा क्यों हो रहा है? खुद को सुधारने और चीजों को समझने का प्रयास करें। फिर पॉजिटिव तरीके से आगे बढ़ें।
बढ़ें आगे, बनाएं पहचान सिर्फ अपनी योग्यता व ऊर्जा का अहसास हो जाना ही काफी नहीं है। असल बात है कि इस योग्यता और ऊर्जा को बाहर निकालने के लिये सही दिशा में पहल करके आगे कदम बढ़ाना।
खुद को साबित करने के लिये किसी भी असाइनमेंट का परफेक्ट आउटपुट देना जरूरी है। अगर आपको लगता है कि आप किसी वर्क को करने में सक्षम हैं, तो किसी से तुलना करने या निर्देश का इंतजार करने के बजाय खुद पहल करके उसे पूरा करें। ऊपर से मिले संकेतों को सही तरीके से समझते हुए काम को मुकम्मल तरीके से पूरा करें। ऐसे परफॉर्मेस में निरंतरता भी जरूरी है, तभी खुद को साबित करने के साथ आप आगे निकलने की राह बना पाएंगे।
कर्मठता की राह किसी भी काम या प्रोफेशन में अपनी अलग पहचान बनाने के लिये कर्मठता की राह पर चलना भी आवश्यक होता है। किसी भी काम को करने में शर्मिदगी न समङों, बल्कि अपने प्रोफेशन में पहल करते हुए आउट ऑफ बॉक्स आइडिया निकालें।
आपकी मंशा दूसरों को चौंकाने या चमत्कृत करने के बजाय अपने टैलेंट को बाहर निकालने की होनी चाहिये। ध्यान रखिये कि आपका काम ही आपकी पहचान बनता है।
अपनी योग्यता पहचानें स्टुडंट हो या कोई एम्प्लाई, सभी के भीतर कोई न कोई टैलेंट जरूर होता है। जरूरत है, इसे जानने-समझने की। इसे पहचान कर इसे निरंतर निखारें, क्योंकि यही आपकी सफलता की बुनियाद है। इसी से आपका कॉन्फिडेंस बढ़ता है। इसके लिये लगातार खुद को टेक्निकल नॉलेज के साथ अपडेट करते रहें। साथ ही अपने बिहेवियर और एटीट्यूड में भी निरंतर निखार लाने का प्रयास करते रहें।
अगर आप अपनी एक अलग और कामयाब पहचान बनाना चाहते हैं, तो चीजों को नए तरीके से करने की आदत डालें।

करियर की राह चुनें जरा संभलकर


ग्रेजुएशन में कोर्स चुनते हुए भेड़चाल में शामिल होने के बजाय अपनी रुचि और क्षमता को तवज्जो दें। बारहवीं की परीक्षाओं और विभिन्न प्रतियोगी परीक्षाओं के नतीजे घोषित होने के साथ ही इस समय स्टुडंट्स के मन में कोर्सेज और कॉलेजों के चयन को लेकर उलझन होना स्वाभाविक है। कोई खुद को अच्छा कॉलेज मिलने को लेकर आश्वस्त नहीं है तो किसी के मन में अपने चुने हुए कोर्स के स्कोप को लेकर शंकाएं हैं। यह समय अपने मन को स्थिर रखते हुए मौजूद विकल्पों पर गौर करने का है, ताकि इनमें से सर्वश्रेष्ठ चुना जा सके। यह समय दुविधा में पडऩे का नहीं है। न हो देखा-देखी उन स्टुडंट्स को अक्सर पछताना पड़ता है, जो किसी कोर्स का चयन सिर्फ इसलिये कर लेते हैं, कि किसी अन्य जानकार ने भी वही कोर्स किया है और आज अच्छा कमा रहा है। यह जान लें कि हर एक की क्षमताएं और रुचि अलग-अलग हैं। इसलिये जो उसके लिये अच्छा है, जरूरी नहीं आपके लिये भी बेहतर ही हो। स्कोप जरूर देखें किसी भी कोर्स का चयन करते समय उसके स्कोप पर जरूर गौर कर लें। आपके पसंदीदा फील्ड से जुड़े लोगों से इस बारे में सलाह लें। इसके अलावा इंटरनेट पर किसी भी फील्ड के स्कोप के बारे में विस्तृत सर्च की जा सकती है। क्या है रुचि किसी भी कोर्स का चयन करने से पहले अपनी रुचि पर गौर जरूर कर लें। ऐसा न करने पर तीन-चार साल की पढ़ाई बोझ लगने लगती है। यदि आपकी रुचि पढ़ाई से इतर किसी चीज में है, तो बेशक आप हल्के-फुल्के सब्जेक्ट्स चुन सकते हैं। बस कोर्स या ट्रेनिंग चुनते समय आपका मुख्य फोकस करियर पर होना चाहिए। सोचें लॉन्ग टर्म कुछ स्टुडंट्स यह भी मान बैठते हैं कि हमने जितने ज्यादा कोर्स किए होंगे, हमारे करियर के लिये उतने ही ज्यादा चांस होंगे, जबकि होता इससे उल्टा है।
ज्यादा कोर्स करने के चक्कर में आपका ध्यान किसी एक पर भी सही से नहीं लग पाता। कोर्स ऐसे चुनें, जो लॉन्ग टर्म में आपके करियर को दिशा देते हों।
सलाह लेने से न ङिाझकें यह स्वीकार करने में कोई हर्ज नहीं है कि आपके लिये यह समय एकदम नया है और आपको चीजों की पूरी समझ नहीं है। इसलिये अपने लिये सही कोर्स या कॉलेज चुनने के लिये अनुभवी लोगों से सलाह लेने में ङिाझक महसूस न करें।
यह सलाह आपके टीचर, अनुभवी पड़ोसी, पेशेवर काउंसलर आदि दे सकते हैं। इसके अलावा आपके स्कूल के जिन सीनियर्स का एडमिशन अच्छे कॉलेजों में हो चुका है, उनसे भी सलाह ली जा सकती है। सलाह मांगते हुए अपने मन की शंकाएं सामने रखने में ङिाझकें नहीं।

B-1B LANCER


The Bone

Nicknamed “The Bone,” the B-1B Lancer is a long-range, multi-mission conventional bomber, which has served the United States Air Force since 1985. Originally designed for nuclear capabilities, the B-1 switched to an exclusively conventional combat role in the mid 1990’s. In 1999, during Operation Allied Force, six B-1s flew 2 percent of the strike missions, yet dropped 20 percent of the ordnance. The B-1 has been nearly continuously deployed in combat operations over Afghanistan and Iraq since 2001.


B-1B Lancer Technical Specifications


Function
Long-range, multi-role, heavy bomber
Power plant
Four General Electric F101-GE-102 turbofan engine with afterburner
Thrust
30,000-plus pounds with afterburner, per engine
Wingspan
137 ft (41.8 m) extended forward, 79 ft (24.1 m) swept aft
Length
146 ft (44.5 meters)
Height
34 ft (10.4 meters)
Weight
Approximately 190,000 lbs (86,183 kg)
Max Takeoff Weight
477,000 lbs (216,634 kg)
Fuel Capacity
265,274 lbs (120,326 kg)
Payload
75,000 lbs internal (34,019 kg), 50,000 lbs (22,679 kg)
Speed
900-plus mph (Mach 1.2 at sea level)
Range
Intercontinental
Ceiling
More than 30,000 ft (9,144 m)
Crew
4 (aircraft commander, copilot, and two weapon systems officers)
Inventory
66
  


B-1B Lancer Milestones

April 30 2015
Jan 22 2014
July 20 2012
April 09 2012
Feb 27 2012





B-1B Lancer Customer


Since the U.S. Air Force received its first B-1B in 1984, the bomber has served the country as both a conventional and nuclear strike option. Over four years, 100 B-1Bs left Boeing’s factories, and 66 continue in operation today.



The Rockwell B-1 Lancer[N 1] is a four-engine supersonic variable-sweep wing, jet-powered heavy strategic bomber used by the United States Air Force (USAF). It was first envisioned in the 1960s as a supersonic bomber with Mach 2 speed, and sufficient range and payload to replace the Boeing B-52 Stratofortress. It was developed into the B-1B, primarily a low-level penetrator with long range and Mach 1.25 speed capability at high altitude. It is commonly called the "Bone" (originally from "B-One").

Designed by Rockwell International (now part of Boeing), development was delayed multiple times over its history due to changes in the perceived need for manned bombers. The initial B-1A version was developed in the early 1970s, but its production was canceled, and only four prototypes were built. The need for a new platform once again surfaced in the early 1980s, and the aircraft resurfaced as the B-1B version with the focus on low-level penetration bombing. However, by this point, development of stealth technology was promising an aircraft of dramatically improved capability. Production went ahead as the B version would be operational before the "Advanced Technology Bomber" (which became the B-2 Spirit), during a period when the B-52 would be increasingly vulnerable. The B-1B entered service in 1986 with the USAF Strategic Air Command (SAC) as a nuclear bomber.


In the early 1990s, following the Gulf War and concurrent with the disestablishment of SAC and its reassignment to the newly formed Air Combat Command (ACC), the B-1B was converted to conventional bombing use. It first served in combat during Operation Desert Fox in 1998 and again during the NATO action in Kosovo the following year. The B-1B has supported U.S. and NATO military forces in Afghanistan and Iraq. The B-1B is expected to continue to serve into the 2030s, with the Long Range Strike Bomber to start supplementing the B-1B in 2030.



Background

In 1955 the U.S. Air Force issued requirements for a new bomber combining the payload and range of the Boeing B-52 Stratofortress with the Mach 2 maximum speed of the Convair B-58 Hustler. In December 1957, the U.S. Air Force selected North American Aviation's proposal to replace the B-52 with the B-70 Valkyrie. The Valkyrie was a six-engine bomber that could reach Mach 3 speeds at high altitude (70,000 ft or 21,000 m) to avoid interceptor aircraft, the only effective anti-bomber weapon in the 1950s. Soviet aircraft were already unable to intercept the high-flying Lockheed U-2; the Valkyrie would fly at similar altitudes but much higher speeds. In combat, the B-70 was expected to simply fly right by the defenders.

By the late 1950s, however, anti-aircraft surface-to-air missiles (SAMs) could threaten high-altitude aircraft, as demonstrated by the 1960 downing of Gary Powers's U-2. The USAF Strategic Air Command (SAC) were aware of these developments and had begun moving its bombers to low-level penetration even before the U-2 downing. This tactic greatly reduces radar detection distances by use of terrain masking; using features of the terrain like hills and valleys, the line-of-sight from the radar to the bomber can be broken, rendering the radar (and human observers) incapable of seeing the target. Even at somewhat higher altitudes, radar systems of the era were subject to "clutter" from stray returns from the ground and other objects, requiring a minimum angle above the ground to be effective. Bombers flying at low altitudes could remain under these angles simply by keeping their distance from the radar sites. This combination of effects made SAMs of the era ineffective against low-flying aircraft. The same effects also meant that low flying aircraft were difficult to detect by higher flying interceptor aircraft, since their radar systems could not readily pick out opposing aircraft against the clutter from ground reflections (lack of look-down/shoot-down capability).

The switch from high-altitude to low-altitude flight profiles severely affected the B-70, whose design was highly tuned to provide the desired high-altitude performance. Planners outlined a series of low-level profiles for the B-70, but higher aerodynamic drag at low level limited the B-70 to subsonic speed while dramatically decreasing its range. The result would be an aircraft with somewhat higher subsonic speed, but less range than the B-52 it was meant to replace. Unsuited for the new low-altitude role, and because of a growing shift to the intercontinental ballistic missile (ICBM) force, the B-70 bomber program was canceled in 1961 by President John F. Kennedy, and the two XB-70 prototypes were used in a supersonic research program.


Although never intended for the low-level role, the B-52's flexibility allowed it to outlast its intended successor as the nature of the air war environment changed. The B-52's huge fuel load allowed it to operate at lower altitudes for longer times, and the large airframe allowed the addition of improved radar jamming and deception suites to deal with radars. During the Vietnam War the concept that all future wars would be nuclear was turned on its head, and the "big belly" modifications increased the B-52's total bomb load to 60,000 pounds (27,000 kg), turning it into a powerful tactical aircraft which could be used against ground troops along with strategic targets from high altitudes. The much smaller bomb bay of the B-70 would have made it much less useful in this role.




The B-1 has a blended wing body configuration, with variable-sweep wing, four turbofan engines, triangular fin control surfaces and cruciform tail. The wings can sweep from 15 degrees to 67.5 degrees (full forward to full sweep). Forward-swept wing settings are used for takeoff, landings and high-altitude maximum cruise. Aft-swept wing settings are used in high subsonic and supersonic flight. The B-1's variable-sweep wings and thrust-to-weight ratio provide it with better takeoff performance, allowing it to use more runways than previous bombers. The length of the aircraft presented a flexing problem due to air turbulence at low altitude. To alleviate this, Rockwell included small triangular fin control surfaces or vanes near the nose on the B-1. The B-1's Structural Mode Control System rotates the vanes automatically to counteract turbulence and smooth out the ride.

 A rear view of a B-1B at Royal International Air Tattoo air show in 2004
Rear view of B-1B in flight, 2004
Unlike the B-1A, the B-1B cannot reach Mach 2+ speeds; its maximum speed is Mach 1.25 (about 950 mph or 1,530 km/h at altitude), but its low-level speed increased to Mach 0.92 (700 mph, 1,130 km/h). The speed of the current version of the aircraft is limited by the need to avoid damage to its structure and air intakes. To help lower its radar cross section (RCS), the B-1B uses serpentine air intake ducts (see S-duct) and fixed intake ramps, which limit its speed compared to the B-1A. Vanes in the intake ducts serve to deflect and shield radar emissions from the highly reflective engine compressor blades.

The B-1A's engine was modified slightly to produce the GE F101-102 for the B-1B, with an emphasis on durability, and increased efficiency. The core of this engine has since been re-used in several other engine designs, including the GE F110 which has seen use in the F-14 Tomcat, F-15K/SG variants and most recent versions of the General Dynamics F-16 Fighting Falcon. It is also the basis for the non-afterburning GE F118 used in the B-2 Spirit and the U-2S. The F101 engine was the basis for the core of the extremely popular CFM56 civil engine, which can be found on some versions of practically every small-to-medium-sized airliner. The nose gear cover door has controls for the auxiliary power units (APUs), which allow for quick starts of the APUs upon order to scramble.



The B-1's main computer is the IBM AP-101, which is also used on the Space Shuttle orbiter and the B-52 bomber. The computer is programmed with the JOVIAL programming language. The Lancer's offensive avionics include the Westinghouse (now Northrop Grumman) AN/APQ-164 forward-looking offensive passive electronically scanned array radar set with electronic beam steering (and a fixed antenna pointed downward for reduced radar observability), synthetic aperture radar, ground moving target indication (GMTI), and terrain-following radar modes, Doppler navigation , radar altimeter, and an inertial navigation suite. The B-1B Block D upgrade added a Global Positioning System (GPS) receiver beginning in 1995.

The B-1's defensive electronics include the Eaton AN/ALQ-161A radar warning and defensive jamming equipment, which has three sets of antennas; one at the front base of each wing and the third rear-facing in the tail radome. Also in the tail radome is the AN/ALQ-153 Missile Approach Warning (Pulse-Doppler radar). The ALQ-161 is linked to a total of eight AN/ALE-49 flare dispensers located on top behind the canopy, which are handled by the AN/ASQ-184 avionics management system. Each AN/ALE-49 dispenser has a capacity of 12 MJU-23A/B flares. The MJU-23A/B flare is one of the world's largest infrared countermeasure flares at a weight of over 3.3 pounds (1.5 kg). The B-1 has also been equipped to carry the ALE-50 Towed Decoy System.

Also aiding the B-1's survivability is its relatively low radar cross-section (RCS). Although not technically a stealth aircraft in a comprehensive sense, thanks to the aircraft's structure, serpentine intake paths and use of radar-absorbent material its RCS is about 1/50th of the similar sized B-52's RCS; this is about 26 ft² or 2.4 m², roughly equivalent to the RCS of a small fighter aircraft.



Variants

B-1A
The B-1A was the original B-1 design with variable engine intakes and Mach 2.2 top speed. Four prototypes were built; no production units were manufactured.

B-1B
The B-1B is a revised B-1 design with reduced radar signature and a top speed of Mach 1.25. It was otherwise optimized for low-level penetration. A total of 100 B-1Bs were produced.

B-1R
The B-1R is a proposed upgrade of existing B-1B aircraft. The B-1R (R for "regional") would be fitted with advanced radars, air-to-air missiles, and new Pratt & Whitney F119 engines. This variant would have a top speed of Mach 2.2, but with 20% shorter range.


Existing external hardpoints would be modified to allow multiple conventional weapons to be carried, increasing overall loadout. For air-to-air defense, an Active electronically scanned array (AESA) radar would be added and some existing hardpoints modified to carry air-to-air missiles. If needed the B-1R could escape from unfavorable air-to-air encounters with its Mach 2+ speed. Few aircraft are currently capable of sustained speeds over Mach 2.



Accidents and incidents

Ten B-1s have been lost due to accidents. Between 1984 and 2001, 17 crew members and people on board have been killed in B-1 accidents.


Bombs:

84× Mk-82 Air inflatable retarder (AIR) general purpose (GP) bombs
81× Mk-82 low drag general purpose (LDGP) bombs
84× Mk-62 Quickstrike sea mines
24× Mk-84 general purpose bombs
24× Mk-65 naval mines
30× CBU-87/89/CBU-97 Cluster Bomb Units (CBU)
30× CBU-103/104/105 Wind Corrected Munitions Dispenser (WCMD) CBUs
24× GBU-31 JDAM GPS guided bombs (Mk-84 GP or BLU-109 warhead)
15× GBU-38 JDAM GPS guided bombs (Mk-82 GP warhead)
48x GBU-38 JDAM (using rotary launcher mounted multiple ejector racks)
48x GBU-54 LaserJDAM (using rotary launcher mounted multiple ejector racks)
24× AGM-154 Joint Standoff Weapon (JSOW)
96× or 144× GBU-39 Small Diameter Bomb GPS guided bombs (not fielded on B-1 yet)
24× AGM-158 Joint Air to Surface Standoff Missile (JASSM)
24× B61 or B83 nuclear bombs (no longer carried)


Tuesday, July 12, 2016

AIR FORCE ONE


Overview

From Presidents Roosevelt to Obama, Boeing airplanes have transported U.S. presidents around the world. The U.S. Air Force announced that it will continue the Boeing tradition with the 747-8, which will replace the two 747-200s that serve as the presidential Air Force One fleet.

When the 747-8 takes flight as the next Air Force One, Boeing airplanes will mark more than half a century of presidential service through the Jet Age.

Visit our gallery to see more historical photos of U.S. presidential aircraft.



Capabilities and Features - Current Presidential Airplane (Boeing 747-200)

 Today, the chief executive flies aboard a specially configured 747-200B, the newest and largest presidential airplane. Its capabilities include:
  • ·                                 Longer range for presidential travel
  • ·                                 Aerial refueling
  • ·                                 Self-sufficiency at airports around the world


The "flying Oval Office" has 4,000 square feet of interior floor space. Among its accommodations are:
  • ·                                 Conference/dining room
  • ·                                 Quarters for the president and the first lady
  • ·                                 An office area for senior staff members
  • ·                                 Another office that converts into a medical facility when necessary
  • ·                                 Work and rest areas for the presidential staff, media representatives and Air Force crews
  • ·                                 Two galleys that can provide 100 meals at one sitting
  • ·                                 Multi-frequency radios for air-to-air, air-to-ground and satellite communications
  • ·                                 Principal differences between Air Force One and the standard Boeing 747 include state-of-the-art navigation, electronic and communications equipment; its interior configuration and furnishings; self-contained baggage loader; and front and aft air-stairs.




Technical Specifications - Current Presidential Airplane (Boeing 747-200)



Crew
26 (passenger/crew capacity: 102)
Model
747-200B
Engines
General Electric CF6-80C2B1
Thrust rating
56,700 pounds, each engine (252 kn)
Long-range mission takeoff gross weight
833,000 pounds (377,842 kg)
Maximum zero fuel weight
526,500 pounds (238,800 kg)
Design mission zero fuel weight
46,000 pounds (20,865 kg)
Maximum landing weight
630,000 pounds (285,763 kg)
Fuel capacity
53,611 gallons (203,129 L)
Range
7,800 statute miles
Wing span
195 feet, 8 inches (59.64 m)
Length
231 feet, 10 inches (70.66 m)
Height
63 feet, 5 inches (19.33 m)
Service ceiling
45,100 feet (13.747 m)




Air Force One is the official air traffic control call sign of a United States Air Force aircraft carrying the President of the United States. In common parlance the term refers to those Air Force aircraft specifically designed, built, and used for the purpose of transporting the president. The presidential aircraft is a prominent symbol of the American presidency and its power.

The idea of designating specific military aircraft to transport the President arose in 1943, when officials of the United States Army Air Forces, the predecessor to the U.S. Air Force, became concerned with relying on commercial airlines to transport the president. A C-87 Liberator Express was reconfigured for use as a presidential transport; however, it was rejected by the Secret Service amid concerns over the aircraft's safety record. A C-54 Skymaster was then converted for presidential use; this aircraft, dubbed the Sacred Cow, transported President Franklin D. Roosevelt to the Yalta Conference in February 1945, and was subsequently used for another two years by President Harry S. Truman.

The "Air Force One" call sign was created after a 1953 incident during which a Lockheed Constellation named Columbine II carrying President Dwight D. Eisenhower entered the same airspace as a commercial airline flight using the same call sign.

A number of aircraft types have been used as Air Force One since the creation of the presidential fleet, starting with two Lockheed Constellations in the late 1950s: Columbine II and Columbine III. It also has included two Boeing 707s introduced in the 1960s and 1970s, respectively; since 1990, the presidential fleet has consisted of two Boeing VC-25As, which are specifically configured, highly customized Boeing 747-200B series aircraft. The Air Force plans to procure the Boeing 747-8 to be the next version of Air Force One.


History

On 11 October 1910, Theodore Roosevelt became the first U.S. president to fly in an aircraft, an early Wright Flyer from Kinloch Field near St. Louis, Missouri. However, he was no longer in office at the time, having been succeeded by William Howard Taft. The record-making occasion was a brief overflight of the crowd at a county fair but was nonetheless the beginning of presidential air travel.

Prior to World War II, overseas and cross-country presidential travel was rare. The lack of wireless telecommunication and available modes of transportation made long-distance travel impractical, as it took much time and isolated the president from events in Washington, D.C. Railroads were a safer and more reliable option if the president needed to travel to distant states. By the late 1930s, with the arrival of aircraft such as the Douglas DC-3, increasing numbers of the U.S. public saw passenger air travel as a reasonable mode of transportation. All-metal aircraft, more reliable engines, and new radio aids to navigation had made commercial airline travel safer and more convenient. Life insurance companies even began to offer airline pilots insurance policies, albeit at extravagant rates, and many commercial travelers and government officials began using the airlines in preference to rail travel, especially for longer trips.

Franklin D. Roosevelt was the first president to fly in an aircraft while in office. The first aircraft obtained specifically for presidential travel was a Douglas Dolphin amphibian delivered in 1933 which was designated RD-2 by the US Navy and based at the Naval base at Anacostia D.C. The Dolphin was modified with luxury upholstery for four passengers and a small separate sleeping compartment. The aircraft remained in service as a presidential transport from 1933 until 1939. There are no reports, however, on whether the president actually flew in the aircraft. During World War II, Roosevelt traveled on the Dixie Clipper, a Pan Am-crewed Boeing 314 flying boat to the 1943 Casablanca Conference in Morocco, a flight that covered 5,500 miles (in three legs). The threat from the German submarines throughout the Battle of the Atlantic made air travel the preferred method of VIP transatlantic transportation.


President Franklin D. Roosevelt's C-54 Skymaster aircraft, nicknamed "the Sacred Cow".
Concerned about relying upon commercial airlines to transport the president, USAAF leaders ordered the conversion of a military aircraft to accommodate the special needs of the Commander-in-Chief. The first dedicated aircraft proposed for presidential use was a C-87A VIP transport aircraft. This aircraft, number 41-24159, was re-modified in 1943 for use as a presidential VIP transport, the Guess Where II, intended to carry President Franklin D. Roosevelt on international trips. Had it been accepted, it would have been the first aircraft to be used in presidential service, in effect the first Air Force One. However, after a review of the C-87's highly controversial safety record in service, the Secret Service flatly refused to approve the Guess Where II for presidential carriage. As the C-87 was a derivative of the Consolidated B-24 Liberator bomber, it presented strong offensive impressions to enemy fighter aircraft as well as foreign destinations visited, an issue not present with airframes that were used purely for transport. The Guess Where II was used to transport senior members of the Roosevelt administration on various trips. In March 1944, it transported Eleanor Roosevelt on a goodwill tour of several Latin American countries. The C-87 was scrapped in 1945.

The Secret Service subsequently reconfigured a Douglas C-54 Skymaster for presidential transport duty. The VC-54C aircraft, nicknamed the Sacred Cow, included a sleeping area, radio telephone, and retractable elevator to lift Roosevelt in his wheelchair. As modified, the VC-54C was used by President Roosevelt only once before his death, on his trip to the Yalta Conference in February 1945.


The VC-118 Independence used primarily by President Truman
After Roosevelt's death in April 1945, Vice President Harry S. Truman became president. The legislation that created the U.S. Air Force, the National Security Act of 1947, was signed by Truman while on board the VC-54C. He replaced the VC-54C in 1947 with a modified C-118 Liftmaster, calling it the Independence (the name of Truman's Missouri hometown). This was the first aircraft acting as Air Force One that had a distinctive exterior—a bald eagle head painted on its nose.

The presidential call sign was established for security purposes during the administration of Dwight D. Eisenhower. The change stemmed from a 1953 incident where an Eastern Airlines commercial flight (8610) had the same call sign as the flight the president was on (Air Force 8610). The airliner accidentally entered the same airspace, and after the incident, the unique presidential aircraft call sign "Air Force One" was introduced. The first official flight of Air Force One was in 1959, during the Eisenhower administration.


The VC-121 Columbine III used by President Eisenhower
Eisenhower introduced four propeller driven aircraft to presidential service. This group included two Lockheed C-121 Constellations, the aircraft Columbine II (VC-121A 48-610, currently undergoing restoration after being stored at Marana Regional Airport in Arizona)—the only primary presidential airplane ever sold—and Columbine III (VC-121E 53-7885, transferred to the National Museum of the United States Air Force at Wright-Patterson Air Force Base in 1966 and placed on display). They were named by First Lady Mamie Eisenhower after the columbine, the official state flower of her adopted home state of Colorado. Two Aero Commanders were added to the fleet and earned the distinction of being the smallest aircraft ever to serve as Air Force One. President Eisenhower also upgraded Air Force One's technology by adding an air-to-ground telephone and an air-to-ground teletype machine.


Future replacement

The VC-25As are expected to be replaced, as they have become less cost-effective to operate. The USAF Air Mobility Command has been charged with looking into possible replacements, including the new Boeing 747-8 and the Airbus A380. On 7 January 2009, the Air Force Materiel Command, as part of its Presidential Aircraft Recapitalization Program (PAR), posted a notice to survey and identify potential suppliers of the next generation of Presidential airplane to begin service in 2017. By 28 January 2009, the deadline for responding to the survey notice, the European Aeronautic Defence and Space Company (EADS) announced that it would not participate in the program leaving Boeing the sole possible provider with either its Boeing 747-8 or Boeing 787 Dreamliner being proposed. On 28 January 2015, the Air Force announced that the Boeing 747-8 will serve as the next presidential aircraft.