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(no subject)
Jul. 1st, 2014 09:25 pmА вот это, пожалуй, самое внушительное видео японского цунами 2011го года...судя по виду, это на севере, совсем рядом с эпицентром...
(no subject)
Jul. 1st, 2014 09:14 pmПосмотрел всяческие видео про цунами 2004 года в Индийском Океане. Поражает полное остутствие у людей минимальных знаний, и сопутствующего страха. Пиздец какой-то -- образованные европейцы, которые ну хоть минимально должны что-то знать про это просто потому, что в школе должны были на уроке географии проходить, смотрят, как океан отходит вдруг отходит на двести метров назад, потом видят гребень, и продолжают спрашивать "Что это?". Люди толпами стоят на пляже, рассматривая ушедший к матери океан, и продолжают с береговой линии любоваться наступающим гребнем, пока тот не топит рыболовное судёнышко...И тогда все кричат "Шайзе!" и начинают бежать. Уму не растяжимо...
ПС. Да, я понимаю про 20/20, но кам он...
https://www.youtube.com/watch?v=PHpG1P3JwEU#t=360
ПС. Да, я понимаю про 20/20, но кам он...
https://www.youtube.com/watch?v=PHpG1P3JwEU#t=360
30 лучших фотографий телескопа Хаббл
Jul. 9th, 2012 05:07 pmOriginally posted by ![[livejournal.com profile]](https://www.dreamwidth.org/img/external/lj-userinfo.gif)
koruff at 30 лучших фотографий телескопа Хаббл
koruff at 30 лучших фотографий телескопа ХабблNGC 5194
Известная как NGC 5194, эта большая галактика с хорошо развитой спиральной структурой, возможно, была первой обнаруженной спиральной туманностью. Хорошо видно, что ее спиральные рукава и пылевые полосы проходят перед галактикой-спутником – NGC 5195 (слева). Эта пара находится на расстоянии около 31 миллиона световых лет и официально принадлежит маленькому созвездию Гончих Псов.
( Read more... )
Известная как NGC 5194, эта большая галактика с хорошо развитой спиральной структурой, возможно, была первой обнаруженной спиральной туманностью. Хорошо видно, что ее спиральные рукава и пылевые полосы проходят перед галактикой-спутником – NGC 5195 (слева). Эта пара находится на расстоянии около 31 миллиона световых лет и официально принадлежит маленькому созвездию Гончих Псов.
( Read more... )
Ну, в какую сторону у вас крутится девушка?
Ежели по часовой -- вы левополушарны (логика, математика), ежели против -- правополушарны (интуиция, воображение). Ежели по желанию хучь туды, а хучь сюды -- на гармони вам играть.
Мне снесло моск -- смотря на картинку, она у меня крутится против часовой. Как только начал печатать (этот пост), она сразу закрутилась по часовой. Поэкспериментировав, получается, что всегда крутится по часовой, если я делю background operations -- печатаю, кручу мышку, и т.д. Десять-пятнадцать секунд покоя -- и сразу закручивается опять против часовой. А ежели проскроллить картинку так, что видны только ноги от бёдер вниз, то попеременно туда-сюда каждые три-пять секунд...Короче, моя логико-математическая половина отчаянно борется с воображением :)
viazinov
Ежели по часовой -- вы левополушарны (логика, математика), ежели против -- правополушарны (интуиция, воображение). Ежели по желанию хучь туды, а хучь сюды -- на гармони вам играть.
Мне снесло моск -- смотря на картинку, она у меня крутится против часовой. Как только начал печатать (этот пост), она сразу закрутилась по часовой. Поэкспериментировав, получается, что всегда крутится по часовой, если я делю background operations -- печатаю, кручу мышку, и т.д. Десять-пятнадцать секунд покоя -- и сразу закручивается опять против часовой. А ежели проскроллить картинку так, что видны только ноги от бёдер вниз, то попеременно туда-сюда каждые три-пять секунд...Короче, моя логико-математическая половина отчаянно борется с воображением :)
via
zinov
Had to drive 200 miles to Kennedy Space Center. Almost missed the last tour of the day and had to haggle and plead to get in. Advanced tour with the VAB and launch pads is so worth the money and the time. For space junkies a must do trip.
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(no subject)
Aug. 23rd, 2011 01:55 pmЗемлетрясение. Маааленькое, но даже на третьем этаже хорошо чувствовалось...
В Вирджинии, вроде, 5.8 только что было. Народ на деске, уже по привычке, видимо, ломанулся смотреть в окна -- видимо, в поисках упавшего самолёта.
Фсё ф поряттке, впрочем.
В Вирджинии, вроде, 5.8 только что было. Народ на деске, уже по привычке, видимо, ломанулся смотреть в окна -- видимо, в поисках упавшего самолёта.
Фсё ф поряттке, впрочем.
For the physics-inclined
Aug. 21st, 2011 02:39 pmLEO satellite orbit decay calculations. Quite interesting.
Невидимые подлодки. Будет хорошо.
Jan. 21st, 2011 07:45 pmSubmarines could become invisible to sonar
Scientists at the University of Illinois in the United States have developed and successfully demonstrated a sonic cloak that could make submarines completely invisible to sonar.
The team of scientists, led by mechanical science and engineering professor Nicholas Fang, announced earlier this month that they have produced and demonstrated an acoustic cloak that makes underwater objects invisible to sonar and other ultrasound waves, finally proving what has long been speculated.
“We are not talking about science fiction. We are talking about controlling sound waves by bending and twisting them in a designer space,” Fang said in a statement. “This is certainly not some trick Harry Potter is playing with.”
Rather than absorbing sound waves, the new material bends sound waves around the object, making it appear invisible.
The researchers tested their clock by wrapping it around a steel cylinder and submerging it in a water tank with an ultrasound device on one side and a sensor on the other. The cloaked cylinder did not show up on their equipment and proved invisible to a broad range of sound waves.
They then tried testing objects with different materials and densities, with similar results.
The cloak itself consists of 16 concentric rings of acoustic circuits that channel sound waves. Sound waves vary their speed from the outer rings to the inner ones, becoming faster further inside the rings. Because speeding up requires energy, the sound waves flow around the cloak’s outer rings, guided by channels in the acoustic circuits. The circuits bend the sound waves to wrap them around the outer layers of the cloak.
The metamaterial cloak can cover a wide variety of sound wavelengths, from 40 to 80 kHz, although in theory it could be tuned to cover tens of megahertz. Military sonar systems operate anywhere from 1000 Hz to 500 kHz, according to an Australian government report. This would make submarines covered in the cloak invisible to sonar, as the sound waves pass around the vessel rather than bouncing back to the sonar detector.
"This is not just a single wavelength effect. You don't have an invisible cloak that's showing up just by switching the frequencies slightly," Fang said.
The technology could also be applied to other areas of submarine stealth, such as cavitation, whereby small bubbles form and implode around fast moving objects like propeller blades. Fang and his group believe they could harness their cloak’s properties to balance energy in caviation-causing areas. Thus, the cloak could be used to keep noise from getting out of a submarine in addition to stopping sonar waves from bouncing back to their source.
via DefPro
Scientists at the University of Illinois in the United States have developed and successfully demonstrated a sonic cloak that could make submarines completely invisible to sonar.
The team of scientists, led by mechanical science and engineering professor Nicholas Fang, announced earlier this month that they have produced and demonstrated an acoustic cloak that makes underwater objects invisible to sonar and other ultrasound waves, finally proving what has long been speculated.
“We are not talking about science fiction. We are talking about controlling sound waves by bending and twisting them in a designer space,” Fang said in a statement. “This is certainly not some trick Harry Potter is playing with.”
Rather than absorbing sound waves, the new material bends sound waves around the object, making it appear invisible.
The researchers tested their clock by wrapping it around a steel cylinder and submerging it in a water tank with an ultrasound device on one side and a sensor on the other. The cloaked cylinder did not show up on their equipment and proved invisible to a broad range of sound waves.
They then tried testing objects with different materials and densities, with similar results.
The cloak itself consists of 16 concentric rings of acoustic circuits that channel sound waves. Sound waves vary their speed from the outer rings to the inner ones, becoming faster further inside the rings. Because speeding up requires energy, the sound waves flow around the cloak’s outer rings, guided by channels in the acoustic circuits. The circuits bend the sound waves to wrap them around the outer layers of the cloak.
The metamaterial cloak can cover a wide variety of sound wavelengths, from 40 to 80 kHz, although in theory it could be tuned to cover tens of megahertz. Military sonar systems operate anywhere from 1000 Hz to 500 kHz, according to an Australian government report. This would make submarines covered in the cloak invisible to sonar, as the sound waves pass around the vessel rather than bouncing back to the sonar detector.
"This is not just a single wavelength effect. You don't have an invisible cloak that's showing up just by switching the frequencies slightly," Fang said.
The technology could also be applied to other areas of submarine stealth, such as cavitation, whereby small bubbles form and implode around fast moving objects like propeller blades. Fang and his group believe they could harness their cloak’s properties to balance energy in caviation-causing areas. Thus, the cloak could be used to keep noise from getting out of a submarine in addition to stopping sonar waves from bouncing back to their source.
via DefPro
Original Sky And Telescope article
NASA article
Results from Fermi’s Gamma-ray Burst Monitor (GBM) instrument show that positrons — the antimatter counterpart of electrons — are produced by "terrestrial gamma-ray flashes" above thunderstorms. TGFs were discovered in 1994. They are brief (often less than a thousandth of a second) but intense bursts of gamma rays associated with thunderstorms. Scientists estimate that about 500 TGFs occur each day around the world, though most go unnoticed.
Since Fermi was launched in June 2008, the GBM team has detected 130 TGFs, mostly in tropical regions where thunderstorms are most common. In four of these TGF events, the GBM also recorded a quick flash of gamma-ray photons with a specific energy of 511,000 electron volts. That’s the characteristic energy of electrons and positrons annihilating one another. “TGFs aren’t just making gamma rays, they’re also making positrons,” says GBM science team member Michael Briggs (Univerity of Alabama, Huntsville).
NASA article
Results from Fermi’s Gamma-ray Burst Monitor (GBM) instrument show that positrons — the antimatter counterpart of electrons — are produced by "terrestrial gamma-ray flashes" above thunderstorms. TGFs were discovered in 1994. They are brief (often less than a thousandth of a second) but intense bursts of gamma rays associated with thunderstorms. Scientists estimate that about 500 TGFs occur each day around the world, though most go unnoticed.
Since Fermi was launched in June 2008, the GBM team has detected 130 TGFs, mostly in tropical regions where thunderstorms are most common. In four of these TGF events, the GBM also recorded a quick flash of gamma-ray photons with a specific energy of 511,000 electron volts. That’s the characteristic energy of electrons and positrons annihilating one another. “TGFs aren’t just making gamma rays, they’re also making positrons,” says GBM science team member Michael Briggs (Univerity of Alabama, Huntsville).
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