55 Surah Rehman سورة الرحمن || Urdu Translation with Roman Urdu || Mohammad Sadiq Noren
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الشيخ نورين محمد صديق سورة يس Sheikh | Nourin Mohamed Siddig |Surah Ya-Sin
Sheikh | Nourin Mohamed Siddig |Surah Ya-Sin -Duri recitation
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الشيخ نورين محمد صديق سورة يوسف Sheikh | Nourin Mohamed Siddig | Surah
أدعو للشيخ بالرحمة (اللهم اغفر له وارحمه، وعافه ،واعف عنه ،وأكرم نُزُله ، ووسع مُدخلهُ ، واغسله بالماء والثلج والبرد ، ونقه من الخطايا كما ينقى الثوب الأبيض من الدنس ، وأبدله داراً خيراً من داره ، وأهلاً خيراً من أهله وزوجاً خيراً من زوجه، وأدخله الجنة ،وأعذه من عذاب القبر ( ومن عذاب النار )"
الشيخ نورين محمد صديق سورة يوسف برواية الدوري عن أبي عمرو
Sheikh | Nourin Mohamed Siddig | Surah Yusuf Al-Duri recitation
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Beautiful Recitation by Shaikh Noren Mohammad Sadiq | Surah Hashar | Urdu & English Translation
Beautiful Recitation by Shaikh Noren Mohammad Sadiq | Surah Hashar | Urdu & English Translation
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Cosmic Dust Rings Spotted by NASA’s James Webb Space Telescope
An image from NASA’s James Webb Space Telescope reveals a remarkable sight: at least 17 concentric dust rings emanating from a pair of stars located about 5,300 light-years from Earth. Each ring was created when the stars came close together and their colliding stellar winds (streams of gas they blow into space) caused some of the gas to compress into dust. Collectively known as Wolf-Rayet 140, the stars’ orbits bring them together about once every eight years, so just like the growth rings of a tree trunk, these dusty loops mark the passage of time: The 17 rings reveal more than a century of stellar interactions. And while other Wolf-Rayet stars produce dust, no other pair is known to produce rings quite like Wolf-Rayet 140. Because the stars’ orbits are elliptical rather than circular, the distance between the stars changes constantly, and dust forms only when they are close. The amount of dust produced by this interaction varies, so the system doesn’t form a perfect bullseye. One of the densest regions of dust production creates the bright feature repeating at 2 o’clock. Credit: NASA/JPL-Caltech For more information about the Webb telescope’s mission, visit: https://www.nasa.gov/webb
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New Supercomputer Simulation Sheds Light on Moon’s Origin
A new NASA and Durham University simulation puts forth a different theory of the Moon’s origin – the Moon may have formed in a matter of hours, when material from the Earth and a Mars sized-body were launched directly into orbit after the impact. The simulations used in this research are some of the most detailed of their kind, operating at the highest resolution of any simulation run to study the Moon’s origins or other giant impacts. Learn more: https://www.nasa.gov/feature/ames/lunar-origins-simulations Credit: NASA/Durham University/Jacob Kegerreis Music Provided by Universal Production Music: Genosequence by Alessandro Rizzo. This video can be downloaded from the NASA Image and Video Library at: https://images.nasa.gov/details-ARC-20221004-AAV3443-MoonOrigin-Social-NASAWeb-1080p NASA's Ames Research Center is located in California's Silicon Valley. Follow us on social media to hear about the latest developments in space, science, technology, and aeronautics. Facebook https://www.facebook.com/nasaamesTwitter https://twitter.com/nasaamesInstagram https://www.instagram.com/nasaames
Chasing Sprites in Electric Skies
Paul Smith is a night-sky fanatic and photographer. His obsession is sprites: immense jolts of light that flicker high above thunderstorms. Last October, he guided NASA scientist Dr. Burcu Kosar through the backroads of Oklahoma to catch one herself. Although she’d studied sprites for more than 15 years, she hadn’t yet chased one. Read more about chasing sprites with Paul and Burcu: https://blogs.nasa.gov/sunspot/2022/10/27/the-great-sprites-chase Learn about NASA’s citizen science project Spritacular:
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NASA Tests Ways to Crash Land on Mars
NASA Tests Ways to Crash Land on Mars
We’re testing a new way of landing on Mars… by crashing into its surface. The Simplified High Impact Energy Landing Device (SHIELD) is a lander concept being tested at NASA’s Jet Propulsion Laboratory (JPL). It could one day provide a new way for low-cost missions to land on Mars. Rather than rely on parachutes or retrorockets, SHIELD would include a collapsible, accordion-like base to absorb the energy of a landing. A full-size prototype of the base was tested on Aug. 12, 2022. The prototype was hurled at the ground from the top of a nearly 90-foot-tall (27-meter-tall) drop tower at JPL. A steel plate ensured the impact was even harder than what would be experienced on Mars. The design worked: After crushing against the steel plate at 110 mph (177 kph), several electronic components inside the SHIELD prototype, including a smartphone, survived the impact. Credit: NASA/JPL-Caltech/California Academy of Sciences
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Audio from NASA’s Juno Mission: Europa Flyby
Audio from NASA’s Juno Mission: Europa Flyby
In this video, measurements collected by the Waves instrument aboard NASA’s Juno spacecraft during its close flyby of Jupiter’s moon Europa on Sept. 29, 2022 have been converted to an audible frequency. As the white line moves across the spectrogram, which is a visual way of representing signal strength over time, the variation of frequency of the plasma waves observed near Europa can be heard as the plasma density varies. The video shows data collected over approximately 1.5 hours during the Europa flyby. For more information about NASA’s Juno mission, visit: http://nasa.gov/juno and https://missionjuno.com Details about the Europa flyby can be found at: https://www.nasa.gov/feature/jpl/nasa-s-juno-will-perform-close-flyby-of-jupiter-s-icy-moon-europa Credit: NASA/JPL-Caltech/SwRI/Univ of Iowa
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