Evolution of Space Telescope | Changes The Concept Of Space Sciences | Exploring Space By Telescope
Evolution of Space Telescope
In 1609 an Italian physicist and astronomer named Galileo became the first person to point a telescope skyward. Although that telescope was small and the images fuzzy, Galileo was able to make out mountains and craters on the moon, as well as a ribbon of diffuse light arching across the sky -- which would later be identified as our Milky Way galaxy. After Galileo's and, later, Sir Isaac Newton's time, astronomy flourished as a result of larger and more complex telescopes. With advancing technology, astronomers discovered many faint stars and the calculated stellar distances. In the 19th century, using a new instrument called a spectroscope, astronomers gathered information about the chemical composition and motions of celestial objects.
Twentieth-century astronomers developed bigger and bigger telescopes and, later, specialized instruments that could peer into the distant reaches of space and time. Eventually, enlarging telescopes no longer improved our view… all because of the Earth's atmosphere.
A Telescope in the Sky? Why?
The next time you gaze up at the night sky, you're likely to spot a twinkling star. But is it really twinkling? What looks like a twinkling star to our eyes is actually steady starlight that has been distorted, or bent, by the Earth's atmosphere. The visual effect of this distortion is like looking at an object through a glass of water.
Ever since mankind managed to reach space in the late 1950s, the principal goal was to explore our universe, find out more about the place we live in, and try to gather as much data as possible about not only our solar system but also the galaxy that we are part of. One of the most useful tools that we have sent to space is of course telescopes, which can be made in all shapes and sizes, with the ability to work and observe the large array of working ranges of the electromagnetic spectrum, from Gamma Rays all the way to the Radio signals.
In July 1958, an astronomer at the University of Wisconsin–Madison named Arthur “Art” Code received a telegram from the fledgling Space Science Board of the National Academy of Sciences. The agency wanted to know what he and his colleagues would do if given the opportunity to launch into Earth’s orbit an instrument weighing up to 100 pounds.
Code, newly-minted director of the University’s Washburn Observatory, had something in mind. His department was already well known for pioneering a technique for measuring the light emitted by celestial objects, called photoelectric photometry, and Code had joined the university with the intent of adapting it to the burgeoning field of space astronomy.
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An Evolution Of Spacesuits: The Suit That Made It Possible For Mankind To Venture Into Space
An Evolution Of Spacesuits
As flight developed, aviators found they had to develop pressure suits to provide oxygen when the air became too thin. The first pressure suit was patented in 1918 by Fred M. Sample. It was made from an elastic material and included an airtight bodysuit, a helmet that could be easily opened and closed, and a flexible air-supply hose connected to a source of compressed air and a pump.
The Suit That Made It Possible For Mankind To Venture Into Space
In 1934, aviator Wiley Post, the first man to fly solo around the world, had rubber manufacturer B.F. Goodrich create a rubber pressure suit that enabled him to reach 40,000 feet (12.1 km). A later version was made from latex poured over cotton clothing and had a metal helmet with a glass visor. Engineer Russell Colley later developed the XH-5 “Tomato Worm Suit” model, which had segmented joints at the knees, hips, and elbows.
Developed by the B.F. Goodrich Company in the late 1950s, the Mercury Suit (also known as the Navy Mark IV) was a modified pressure suit, based on designs used by the United States Navy. The suits were originally designed by Russell Colley for use during the Korean War. NASA's Mercury Project kicked into gear in 1958, and the need for a spacesuit to protect astronauts quickly became apparent.
The Mercury Suit: The first American spacesuit
NASA scientists noted Mark IV as a potential model, given its ability to protect pilots at high altitudes and maintain an atmosphere similar to that of Earth's. To make the design viable for space, they coated the suit with aluminum for thermal control and added a closed-loop breathing system that pumped oxygen into the suit through a tube at the waist.
The Suit That Landed On The Moon
To make the dream of walking on the Moon a reality, NASA had to create a suit that not only kept their astronauts alive in the vacuum of space but would also be lightweight while providing the flexibility and maneuverability needed for walking on the Moon. The design would have to protect its wearer from the effects of radiation, as well as protect the wearer against the tough terrain, and provide the ability to stoop down and collect rocks.
With these concerns in mind, NASA developed what they referred to as EMUs — extravehicular mobility units, which have become colloquially known as the Apollo or Skylab suit.
The suit featured the famous fishbowl helmet and a water-cooled undergarment that was fitted with 300 feet (91 meters) of tubing. An additional "backpack" containing oxygen and cooling water was also worn for walking on the moon's surface.
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Why Only Saturn Have Rings? | Most Beautiful Planet In Solar System | Advance Exploration Of Saturn
Why Only Saturn Have Rings?
Saturn's rings are thought to be pieces of comets, asteroids, or shattered moons that broke up before they reached the planet, torn apart by Saturn's powerful gravity. They are made of billions of small chunks of ice and rock coated with other materials such as dust. The ring particles mostly range from tiny, dust-sized icy grains to chunks as big as a house. A few particles are as large as mountains. The rings would look mostly white if you looked at them from the cloud tops of Saturn, and interestingly, each ring orbits at a different speed around the planet.
Saturn's ring system extends up to 175,000 miles (282,000 kilometers) from the planet, yet the vertical height is typically about 30 feet (10 meters) in the main rings. Named alphabetically in the order they were discovered, the rings are relatively close to each other, with the exception of a gap measuring 2,920 miles (4,700 kilometers) in width called the Cassini Division that separates Rings A and B. The main rings are A, B, and C. Rings D, E, F, and G are fainter and more recently discovered.
Starting at Saturn and moving outward, there is the D ring, C ring, B ring, Cassini Division, A ring, F ring, G ring, and finally, the E ring. Much farther out, there is the very faint Phoebe ring in the orbit of Saturn's moon Phoebe.
Most Beautiful Planet In Solar System
The planet Saturn: is truly massive and stunningly beautiful with its rings. It’s also home to amazing moons like Titan.
The planet Saturn is probably the best-known and most beautiful planet in the Solar System. Saturn’s rings are far more extensive and more easily seen than those of any other planet.
Saturn is the second largest planet in the solar system with a diameter of 120,000 km. It orbits the Sun every 30 years at a distance of about ten times that of the Earth. Saturn is the least dense of all the planets, its mean density being only 0.7 times that of water.
The visits by the Voyager spacecraft rewrote almost everything we thought we knew about Saturn, its rings, and its satellites.
Advance Exploration Of Saturn
Four robotic spacecraft have visited Saturn. NASA's Pioneer 11 provided the first close look in September 1979. NASA's twin Voyager 1 and Voyager 2 spacecraft followed up with flybys nine months apart in 1980 and 1981.
The real Lord of the Rings is Saturn, a massive outer planet boasting a set of rings about 27 Earth-wide. Being a gas giant like Jupiter, Saturn shares many of its attributes: a strong magnetic field generated by churning metallic hydrogen deep inside, raging storms in its gaseous upper atmosphere, and diversity of planet-like moons that are worlds unto themselves. Saturn’s rings and larger moons are visible even from small backyard telescopes.
Saturn was born right after Jupiter, roughly 4.5 billion years ago in the solar system’s early days. Both planets probably formed closer to the Sun and then migrated out to their current positions about 4 billion years ago. Their gravity likely lofted asteroids and comets all over the solar system, some of which slammed into early Earth and may have brought water here.
We know of more than 4,000 exoplanets — worlds orbiting other stars — and the statistics show us that most stars have planets. Many are Jupiter and Saturn-like words close to their stars, supporting the idea that our own gas giants moved during the solar system’s early days. One exoplanet we’ve found appears to have rings 200 times wider than Saturn’s! By studying Saturn and comparing it to similar exoplanets, we learn how solar systems evolve.
#mostbeautifulplanet
#exploringsaturn
#solarsystem
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How Space Probes Are Launched into Space | How did SpaceX Become a Successful Launcher Company?
The Space Launch System (abbreviated as SLS) is an American super heavy-lift expendable launch vehicle under development by NASA since 2011. The first launch, designated Artemis 1, is scheduled for a period between 20 September and 4 October 2022 from Kennedy Space Center. It replaces the Ares I and Ares V launch vehicles, which were canceled along with the rest of the Constellation program, a previous program aimed to return to the Moon. The SLS is intended to become the successor to the retired Space Shuttle, and the primary launch vehicle of NASA's deep space exploration plans through the 2020s. Crewed lunar flights are planned as part of the Artemis program, leading to a possible human mission to Mars. The SLS is being developed in three major phases with increasing capabilities: Block 1, Block 1B, and Block 2. As of August 2019, SLS Block 1 launch vehicles are to launch the first three Artemis missions and five subsequent SLS flights are planned to use Block 1B, after which all flights will use Block 2.
The SLS is planned to launch the Orion spacecraft as part of the Artemis program, making use of the ground operations and launch facilities at NASA's Kennedy Space Center in Florida. Artemis is projected to use at most one SLS each year until at least 2030. SLS will launch from LC-39B at the Kennedy Space Center.
The first launch was originally mandated by Congress for December 2016, but it has been delayed by more than five years to the original six-year
How did SpaceX Become a Successful Launcher Company?
Space Exploration Technologies Corp. (doing business as SpaceX) is an American spacecraft manufacturer, space launch provider, and satellite communications corporation headquartered in Hawthorne, California. It was founded in 2002 by Elon Musk, with the goal of reducing space transportation costs to enable the colonization of Mars. It manufactures Falcon 9 and Falcon Heavy launch vehicles, several rocket engines, Cargo Dragon, crew spacecraft, and Starlink communications satellites.
SpaceX is developing a satellite internet constellation named Starlink to provide commercial internet service. In January 2020, the Starlink constellation became the largest satellite constellation ever launched, and as of July 2022 comprises over 2,700 small satellites in orbit. The company is also developing Starship, a privately funded, fully reusable, super heavy-lift launch system for interplanetary and orbital spaceflight. It is intended to become SpaceX's primary orbital vehicle once operational, supplanting the existing Falcon 9, Falcon Heavy, and Dragon fleet. It will have the highest payload capacity of any orbital rocket ever built on its debut, scheduled for 2022 pending launch license.
SpaceX's achievements include the first privately funded liquid-propellant rocket to reach orbit around Earth; the first private company to successfully launch, orbit, and recover a spacecraft; the first private company to send a spacecraft to the International Space Station; the first vertical take-off and vertical propulsive landing for an orbital rocket booster; first reuse of such booster; and the first private company to send astronauts to orbit and to the International Space Station. SpaceX has flown and landed the Falcon 9 series of rockets over one hundred times.
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Why Do Scientists Want To Know About Jupiter's Exact Look? Advance Exploration of Jupiter
Advance Exploration of Jupiter
The gas giant has 79 moons and is known as the 'king of the planets'. Jupiter is the largest planet in the solar system and the fifth planet from the sun. The gas giant has a long, rich, history of surprising scientists.
Named after the kind of the gods in Roman mythology this "king of the planets" is a stormy enigma shrouded in colorful clouds. Its most prominent and most famous storm, the Great Red Spot, is twice the width of Earth.
Why Do Scientists Want To Know About Jupiter's Exact Look?
Jupiter helped to revolutionize the way we saw the universe — and our place in it — in 1610 when Galileo discovered Jupiter's four large moons: Io, Europa, Ganymede, and Callisto. These observations were the first time that celestial bodies were seen circling an object other than Earth and supported the Copernican view that Earth was not the center of the universe.
Since 2016, the NASA spacecraft Juno has been investigating Jupiter and its moons.
Jupiter is more than twice as massive as all the other planets combined, according to NASA. Jupiter's immense volume could hold more than 1,300 Earths. If Jupiter were the size of a basketball, Earth would be the size of a grape.
Jupiter was probably the first planet to form in the solar system, made up of gasses left over from the formation of the sun. If the planet had been about 80 times more massive during its development, it would have actually become a star in its own right, according to NASA.
HOW FAR IS JUPITER FROM THE SUN?
On average, Jupiter orbits about 483,682,810 miles (778,412,020 kilometers) from the sun. That's 5.203 times farther than Earth's average distance from the sun.
At perihelion, when Jupiter is closest to the sun, the planet is 460,276,100 miles (740,742,600 km) away.
At aphelion or the farthest distance that Jupiter reaches from the sun, it is 507,089,500 miles (816,081,400 km) away.
Jupiter's atmosphere resembles that of the sun, made up mostly of hydrogen and helium. A helium-rich layer of fluid metallic hydrogen envelops a “fuzzy” or partially-dissolved core at the center of the planet.
#jupiterlook
#largestplanet
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#solarsystem
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Why Earth Is The Only Planet In Universe Where Life Exists? Advance Earth Exploration Documentary
Why Earth Is The Only Planet In Universe Where Life Exists?
Earth is the only planet known to support life. Learn about what Earth is made of and where it came from. Earth, our home, is the third planet from the sun. While scientists continue to hunt for clues of life beyond Earth, our home planet remains the only place in the universe where we've ever identified living organisms.
Earth is the fifth-largest planet in the solar system. It's smaller than the four gas giants — Jupiter, Saturn, Uranus, and Neptune — but larger than the three other rocky planets, Mercury, Mars, and Venus.
PLANET EARTH'S ORBIT AROUND THE SUN
Earth has a diameter of roughly 8,000 miles (13,000 kilometers) and is mostly round because gravity generally pulls matter into a ball. But the spin of our home planet causes it to be squashed at its poles and swollen at the equator, making the true shape of the Earth an "oblate spheroid."
Our planet is unique for many reasons, but its available water and oxygen are two defining features. Water covers roughly 71% of Earth's surface, with most of that water located in our planet's oceans. About a fifth of Earth's atmosphere consists of oxygen, produced by plants.
While Earth orbits the sun, the planet is simultaneously spinning around an imaginary line called an axis that runs through the core, from the North Pole to the South Pole. It takes Earth 23.934 hours to complete a rotation on its axis and 365.26 days to complete an orbit around the sun — our days and years on Earth are defined by these gyrations.
Earth's axis of rotation is tilted in relation to the ecliptic plane, an imaginary surface through the planet's orbit around the sun. This means the Northern and Southern hemispheres will sometimes point toward or away from the sun depending on the time of year, and this changes the amount of light the hemispheres receive, resulting in the changing seasons.
Earth happens to orbit the sun within the so-called "Goldilocks zone," where temperatures are just right to maintain liquid water on our planet's surface. Earth's orbit is not a perfect circle, but rather a slightly oval-shaped ellipse, similar to the orbits of all the other planets in our solar system. Our planet is a bit closer to the sun in early January and farther away in July, although this proximity has a much smaller effect on the temperatures we experience on the planet's surface than does the tilt of Earth's axis.
EARTH'S FORMATION AND DEVELOPMENT
Scientists think Earth was formed at roughly the same time as the sun and other planets some 4.6 billion years ago when the solar system coalesced from a giant, rotating cloud of gas and dust known as the solar nebula. As the nebula collapsed under the force of its own gravity, it spun faster and flattened into a disk. Most of the material in that disk was then pulled toward the center to form the sun.
Other particles within the disk collided and stuck together to form ever-larger bodies, including Earth. Scientists think Earth started off as a waterless mass of rock.
"It was thought that because of these asteroids and comets flying around colliding with Earth, conditions on early Earth may have been hellish," Simone Marchi, a planetary scientist at the Southwest Research Institute in Boulder, Colorado, previously told Space.com.
However, analyses of minerals trapped within ancient microscopic crystals suggest that there was liquid water already present on Earth during its first 500 million years, Marchi said.
Radioactive materials in the rock and increasing pressure deep within the Earth generated enough heat to melt the planet's interior, causing some chemicals to rise to the surface and form water, while others became the gases of the atmosphere. Recent evidence suggests that Earth's crust and oceans may have formed within about 200 million years after the planet took shape.
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Do We Have A Dying Sun? Advances Sun Exploration By NASA Full Documentary By Amazing Tv
Our sun's death is a long way off — about 4.5 billion years, give or take — but someday it's going to happen, and what then for our solar system?
The trouble begins before death proper: The first thing we have to contend with is the elderly sun itself. As the fusion of hydrogen continues inside the sun, the result of that reaction — helium — builds up in the core.
THE AGEING SUN.
With all the waste product hanging around, it gets harder for the sun to do its fusion dance. But the inward crushing weight of the sun's atmosphere doesn't change, so to maintain balance the sun has to increase the temperature of its fusion reactions, leading ironically to a hotter core.
This means that as the sun ages, it gets steadily brighter. The dinosaurs knew a dimmer sun than we see today, and in as little as a few hundred million years, Earth will get too hot to handle.
Our atmosphere will get stripped away. Our oceans will evaporate. For a while, we'll look something like Venus, locked in a choking, carbon dioxide atmosphere.
And then it gets worse.
THE RED GIANT
In the final stages of hydrogen fusion, our sun will swell and swell, becoming distorted and bloated — and red. The red giant sun will consume Mercury and Venus for sure. It might or might not spare Earth, depending on exactly how large it gets. If the sun's distended atmosphere does reach our world, Earth will dissolve in less than a day.
But even if the sun's expansion stops short, it won't be pretty for Earth. The extreme energies emitted by the sun will be intense enough to vaporize rocks, leaving behind nothing more than the dense iron core of our planet.
The outer planets won't enjoy the increased radiation output from the sun either. The rings of Saturn are made of almost pure water ice, and the future sun will simply be too hot for them to survive. The same goes for the ice-locked worlds orbiting those giants. Europa, Enceladus, and all the rest will lose their icy shells.
At first, the increased radiation will blast the four outer planets, stripping away their atmospheres, which are just as fragile as that of a terrestrial planet. But as the sun continues to swell, some of the outer tendrils of its atmosphere can find their way to the giants, traveling through funnels of gravity. Feeding on that material, the outer planets can gorge themselves, becoming far larger than they ever were before.
But the sun still won't be done. In its final stages, it will repeatedly swell and contract, pulsing for millions of years. This isn't the most stable situation, gravitationally speaking. The deranged sun will push and pull the outer planets in odd directions, potentially drawing them into a deadly embrace or kicking them entirely out of the system.
CAN LIFE SURVIVE SUN'S END?
For a few hundred million years, the outermost parts of our solar system will be a decent place to call home. With so much heat and radiation pouring from the red giant sun, the habitable zone — the region around a star where the temperatures are just right for liquid water — will shift outward.
As we saw above, at first the moons of the outer worlds will melt, losing their icy shells and potentially hosting liquid water oceans on their surfaces. Eventually, the Kuiper belt objects, including Pluto and its mysterious friends, will also lose their ices. The largest may transform into mini-Earths orbiting a distant, distorted red sun.
But eventually, our sun will give up the struggle, shrugging off its outer atmosphere in a series of outbursts that leave behind the star's core: a white-hot lump of carbon and oxygen.
This white dwarf will initially be staggeringly hot, blasting off X-ray radiation that can do brutal damage to life as we know it. But within a billion years or so, the white dwarf will settle down to more manageable temperatures and simply hang out for trillions upon trillions of years.
That dim white dwarf will host a new habitable zone, but because the former sun will be so cool, that zone would be incredibly close, much closer than Mercury orbits our sun today.
At that distance, any planet (or planetary core) would be vulnerable to tidal disruption — a pretty way of saying the gravity of the white dwarf could inadvertently rip a planet to shreds.
#thesun
#sloarsystem
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How International Space Station Works? Exploring The International Space Station Full Documentary
The International Space Station (ISS) is the largest modular space station currently in low Earth orbit. It is a multinational collaborative project involving five participating space agencies: NASA (United States), Roscosmos (Russia), JAXA (Japan), ESA (Europe), and CSA (Canada). The ownership and use of the space station are established by intergovernmental treaties and agreements. The station serves as a microgravity and space environment research laboratory in which scientific research is conducted in astrobiology, astronomy, meteorology, physics, and other fields. The ISS is suited for testing the spacecraft systems and equipment required for possible future long-duration missions to the Moon and Mars.
The ISS program evolved from the Space Station Freedom, a 1984 American proposal to construct a permanently manned Earth-orbiting station, and the contemporaneous Soviet/Russian Mir-2 proposal from 1976 with similar aims. The ISS is the ninth space station to be inhabited by crews, following the Soviet and later Russian Salyut, Almaz, and Mir stations and the American Skylab. It is the largest artificial object in space and the largest satellite in low Earth orbit, regularly visible to the naked eye from Earth's surface. It maintains an orbit with an average altitude of 400 kilometers (250 mi) by means of reboost maneuvers using the engines of the Zvezda Service Module or visiting spacecraft. The ISS circles the Earth in roughly 93 minutes, completing 15.5 orbits per day.
The station is divided into two sections: the Russian Orbital Segment (ROS) is operated by Russia, while the United States Orbital Segment (USOS) is run by the United States as well as by the other states. The Russian segment includes six modules. The US segment includes ten modules, whose support services are distributed 76.6% for NASA, 12.8% for JAXA, 8.3% for ESA, and 2.3% for CSA.
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Beyond The Solar System | Space Exploration Full Documentary
Our Milky Way galaxy is just one of the billions of galaxies in the universe. Within it, there are at least 100 billion stars, and on average, each star has at least one planet orbiting it. This means there are potentially thousands of planetary systems like our solar system within the galaxy!
Our Sun is one of at least 100 billion stars in the Milky Way, a spiral galaxy about 100,000 light-years across. And where are we in the Milky Way? Our Sun lies near a small, partial arm called the Orion Arm, or Orion Spur, located between the Sagittarius and Perseus arms.
The stars are arranged in a pinwheel pattern with four major arms, and we live in one of them, about two-thirds of the way outward from the center. Most of the stars in our galaxy are thought to host their own families of planets.
The Milky Way galaxy is just one of the billions of galaxies in the universe.
The universe is a vast expanse of space that contains all of everything in existence. The universe contains all of the galaxies, stars, and planets. The exact size of the universe is unknown. Scientists believe the universe is still expanding outward.
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Story Behind Artemis I First Launch & Why Artemis I Send To Moon | Complete Documentary
The Artemis program is a robotic and human Moon exploration program led by the United States space agency, NASA, and involving three other partner agencies: European Space Agency (ESA), Japan Aerospace Exploration Agency (JAXA), and Canadian Space Agency (CSA). If successful, the Artemis program will re-establish a human presence on the Moon for the first time since the Apollo 17 mission in 1972. The major components of the program are the Space Launch System (SLS), Orion spacecraft, Lunar Gateway space station, and the commercial Human Landing Systems, including Starship HLS. The long-term vision of the program is to establish a permanent base camp on the Moon and facilitate human missions to Mars.
The Artemis program is a collaboration of space agencies and companies around the world, bound together via the Artemis Accords and supporting contracts. As of July 2022, twenty-one countries have signed the accords, including traditional U.S. space partners (such as the European Space Agency as well as agencies from Canada, Japan, and the United Kingdom) and emerging space powers such as Brazil, South Korea, and the United Arab Emirates.
The Artemis program was formally established in 2017 during the Trump administration; however, many of its components such as the Orion spacecraft were developed during the previous Constellation program (2005–2010) and after its cancellation. Orion's first launch, and the first use of the Space Launch System, was originally set in 2016 but was scheduled to launch in 2022 as the Artemis 1 mission, with robots and mannequins aboard. According to plan, the crewed Artemis 2 launch will take place in 2024, the Artemis 3 crewed lunar landing in 2025, the Artemis 4 docking with the Lunar Gateway in 2027, and future yearly landings on the Moon thereafter. However, some observers note that the program's cost and timeline are likely to be overrun and delayed, due to NASA's improper management of contractors.
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Surah Al ikhlas Urdu Translation By Amazing Tv #trensing #viral
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Surah Al Kafirun Urdu Translation By Amazing Tv #trensing #viral
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Surah Al Ma'oun Urdu Translation By Amazing Tv #trensing #viral #shorts
Surah Al Ma'oun Urdu Translation By Amazing Tv #trensing #viral
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Surah Al kawsar With Urdu Translation #shorts #quran #urdutranslation
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Surah Al Qurash (106) Urdu Translation #shorts #holyquran #urdutranslation
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imran khan is back killer entry #imported_hakimat_namanzoor #shorts #trensing #viral
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Balagal lola Ba Kamala Hi Naat By Ali Zafar #shorts #ramzan #ramzanstatus #naatstatus #madina
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Afghani Peoples Reaction on America Attack on them #shorts #importedgovernmentnamanzoor
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America Planing To Occupy Afghanistan By Ashraf Ganni #shorts #importedgovernmentnamanzoor
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America is Beating there Soldiers To Attack on Afghanistan #importedgovernmentnamanzoor #shorts
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Bamai Bay Never Trust on Pakistani Hospitality #importedgovernmentnamanzoor #shorts #trt_ptv
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Saljan Also Want to come to Pakistan for Living #importedgovernmentnamanzoor #shorts
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Ertural is also Against important Government in Pakistan #shorts #importedgovernmentnamanzoor
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Ertural is also Against the imported_Government in Pakistan #shorts #imported_governent #trt #viral
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Ertural is also Against the imported_Government in Pakistan #shorts #imported_governent #trt #viral
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