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The space shuttle typically reenters the Earth's atmosphere at a speed of around 17,500 miles per hour (28,000 kilometers per hour). This high velocity is necessary to overcome the gravitational pull of the Earth and safely return to the surface. As the shuttle enters the atmosphere, it experiences extreme heating due to air friction, which can reach temperatures of up to 3,000 degrees Fahrenheit (1,650 degrees Celsius).
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How fast does a space shuttle reenter the earths atmosphere?
A space shuttle reenters the Earth's atmosphere at a speed of around 17,500 miles per hour. The high speed generates intense heat, which is why the shuttle needs heat shields to protect it during reentry. The spacecraft gradually slows down as it descends through the atmosphere.
Why does a space shuttle need to travel so fast when entering earths atmosphere?
Although it reaches incredible speeds, a Space Shuttle is not going fast when it enters the atmosphere. The gravitational pull of Earth, or just gravity, are pulling down on the space shuttle with immense force.
Why do space shuttles heat up when they re-enter into the earths atmosphere?
When the shuttle goes from the vacuum of space and enters the earths atmosphere, it heats up because of simple friction. The friction is from the shuttle going so fast and hitting the atmosphere. Same reason you sometimes see meteor showers.
Why must the space shuttle go so fast?
The space shuttle needs to go fast in order to reach orbit around the Earth. By going fast, the shuttle can overcome the gravitational pull of the Earth and enter into a stable orbit where it remains in space. This speed is necessary to counteract the pull of gravity and maintain a continuous state of freefall around the Earth.
How fast does the shuttle gets out of the atmosphere?
The space shuttle typically takes about 8.5 minutes to reach orbit, during which it accelerates to speeds exceeding 17,000 miles per hour (Mach 25) to escape Earth's atmosphere. It experiences intense heat and pressure during this ascent as it travels through the different layers of the atmosphere.
How fast does a space shuttle reenter the earths atmosphere?
A space shuttle reenters the Earth's atmosphere at a speed of around 17,500 miles per hour. The high speed generates intense heat, which is why the shuttle needs heat shields to protect it during reentry. The spacecraft gradually slows down as it descends through the atmosphere.
Why does a space shuttle need to travel so fast when entering earths atmosphere?
Although it reaches incredible speeds, a Space Shuttle is not going fast when it enters the atmosphere. The gravitational pull of Earth, or just gravity, are pulling down on the space shuttle with immense force.
Why do space shuttles heat up when they re-enter into the earths atmosphere?
When the shuttle goes from the vacuum of space and enters the earths atmosphere, it heats up because of simple friction. The friction is from the shuttle going so fast and hitting the atmosphere. Same reason you sometimes see meteor showers.
Why must the space shuttle go so fast?
The space shuttle needs to go fast in order to reach orbit around the Earth. By going fast, the shuttle can overcome the gravitational pull of the Earth and enter into a stable orbit where it remains in space. This speed is necessary to counteract the pull of gravity and maintain a continuous state of freefall around the Earth.
How fast does the shuttle gets out of the atmosphere?
The space shuttle typically takes about 8.5 minutes to reach orbit, during which it accelerates to speeds exceeding 17,000 miles per hour (Mach 25) to escape Earth's atmosphere. It experiences intense heat and pressure during this ascent as it travels through the different layers of the atmosphere.
Which space shuttle started on fire while entering the atmosphere?
It is not set on fire. As the space shuttle enters the atmosphere it is moving extremely fast, more than 17,000 miles per hour. In incredible speed causes the air around it to heat up to the point that it glows.
How fast does a space shuttle travel in earths atmosphere?
A space shuttle reentering Earth's atmosphere travels at speeds around 17,500 miles per hour. This high speed generates intense heat due to friction with the air, causing the iconic glowing plasma trail behind the shuttle.
Why does the space shuttle looks like its turning during lift off?
Well if i remember my high-school physics, it's because as the rocket is going up and it is going so fast that the atmosphere pressure is at it's peak. So when it rolls it turns the pressure on the bottom making it easier for the rocket to go up. Also it turns because it is going down toward earth but also going forward which keeps it from falling back into the atmosphere.
How can planes fly in the atmosphere?
by using lots of fuel and by going very fast.
Why is a metal skin not used on a space shuttle?
It is in many places, but when the shuttle glides back into the atmosphere for a landing, its going so fast that the air creates friction. The heat from that much air friction would melt any metal, so they use heat resistant ceramic tiles which are only in the places where the friction is the hottest - on the bottom of the shuttle mostly. In pictures they look like dark gray roof tiles.
How fast does a space shuttle need to be traveling when it leaves the earths atmosphere?
A space shuttle needs to reach a speed of approximately 17,500 miles per hour, known as orbital velocity, to successfully leave the Earth's atmosphere and enter space. This speed allows the shuttle to counteract the pull of Earth's gravity and achieve a stable orbit around the planet.
Why did the Columbia shuttle crash in 2003?
When an object moves through the air very, very fast the air pressing on the object gets extremely hot (thousands of degrees). This happens to the Shuttle when it reenters the Earth's atmosphere at the end of every mission. There are panels on the Shuttle that protect it from this heat during reentry. When Colombia was launched a piece of insulating foam on the big orange fuel tank came off and hit the wing of the Shuttle (the Orbiter) making a hole in these protective panels. Later, during reentry, this let the hot gasses generated during reentry to get inside the wing. This began a set of cascading failures that resulted in the Shuttle dissentigrating -- breaking up. It did not crash, it dissentirated in the air.
