The International Space Station makes 15.65 revolutions per day in its orbit around the earth. Assuming...

The International Space Station makes 15.65 revolutions per day in its orbit around the earth. Assuming...

The International Space Station makes 15.65 revolutions per day in its orbit around the earth. Assuming a circular orbit, how high is this satellite above the surface of the earth? A thorough explanation please. The ansewr is 370km. Other chegg explanations weren't good, so I'm asking this problem again.

The International Space Station (ISS) makes 15.65 orbits around Earth every day. Assuming a circular orbit;...

The International Space Station (ISS) makes 15.65 orbits around Earth every day. Assuming a circular orbit; how far about the Earth’s surface is the ISS?

The international space station is in a circular orbit 500 km above the Earth. A) Calculate...

The international space station is in a circular orbit 500 km above the Earth. A) Calculate the acceleration due to the Earth's gravity for this orbit B) Use this acceleratiom to calculate the speed of the space station

A1. The International Space Station (ISS) orbits the Earth at an average altitude of 350 km...

A1. The International Space Station (ISS) orbits the Earth at an average altitude of 350 km above Earth's surface. (a) Assuming the ISS is in uniform circular motion, how fast is it moving (in m/s)? (b) How long does it take to complete a full orbit?

A space station is orbiting the Earth. It moves in a circular orbit with a radius...

A space station is orbiting the Earth. It moves in a circular orbit with a radius equal to twice the Earth's radius. A supply satellite is designed to travel to the station and dock smoothly when it arrives. If the supply satellite is fired as a simple projectile from the Earth's surface, what is the minimum initial speed required for it to reach the space station and have a speed equal to the station's speed when it arrives? Ignore both...

The International Space Station (ISS) orbits 400 km above the surface of the Earth. The mass...

The International Space Station (ISS) orbits 400 km above the surface of the Earth. The mass of the ISS is 419,455 kg (source: NASA website), the mass of the Earth is 5.98×1024 kg, and the radius of the Earth is 6.37×106 m. Calculate the gravitational force exerted by the Earth on the ISS. Is the gravitational force exerted by the ISS on the Earth greater, the same, or less than your answer in part (a)? Explain why. Calculate the speed...

A spy satellite completes six revolutions every day in a circular orbit. Determine the altitude of...

A spy satellite completes six revolutions every day in a circular orbit. Determine the altitude of the satellite above Earth's surface. the speed of the satellite.

A satellite is designed to orbit Earth at an alltitude above its surface that will place...

A satellite is designed to orbit Earth at an alltitude above its surface that will place it in a gravitational field with a strength of 4.5 N/m.             a)        Calculate the distance above the surface of the Earth at which the satellite must orbit.             b)        Assuming the orbit is circular, calculate the acceleration of the satellite and its direction. c)         At what speed must the satellite travel in order to maintain this orbit

The international space station orbits the earth at about 200km above the earth's surface. An astronaut...

The international space station orbits the earth at about 200km above the earth's surface. An astronaut in the space station experiences "micro gravity". Use newtons law of gravity to determine the astronauts actual weigh in orbit. why is this considered "micro gravity"

Two satellites are in circular orbits around the earth. The orbit for satellite A is at...

Two satellites are in circular orbits around the earth. The orbit for satellite A is at a height of 406 km above the earth's surface, while that for satellite B is at a height of 904 km. Find the orbital speed for satellite A and satellite B.