The space shuttle releases a satellite into a circular orbit 640 km above the Earth.
Part A How fast must the shuttle be moving (relative to Earth) when the release occurs? v = m/s
The space shuttle releases a satellite into a circular orbit 640 km above the Earth. Part...
A satellite travels around Earth in uniform circular motion, at a height of 35,800 km above Earth's atoms. The satellite has a mass of 580 kg. a) what is the gravitational force exerted on the satellite by Earth? b) How fast must the satellite be moving to retain this orbit (relative to the center of Earth)
The space shuttle typically travels in a circular orbit at an altitude of 500 km above the Earth's surface. The Earth itself has a radius of about 6400 km. The shuttle can travel in a circular orbit, at constant speed, without any need for the rocket engine to be on, if it travels at just the right speed (a) Given that the value of g is 8.50 m/s2 at an altitude of 500 km, determine the value of the shuttle's...
Problem 3) The space shuttle is in a circular orbit of 180 km altitude and inclination 30o. What is the change in east longitude (AX) of the ascending node after 1 orbit of the satellite? (answer in radians) Hint: ёл-(w Earth-A)nT for n orbits Problem 3) The space shuttle is in a circular orbit of 180 km altitude and inclination 30o. What is the change in east longitude (AX) of the ascending node after 1 orbit of the satellite? (answer...
Consider a satellite of mass m moving in a circular orbit around the Earth at a constant speed v and at an altitude h above the Earth's surface as illustrated in the figure. (a) Determine the speed of the satellite in terms of G, h, Re (the radius of the Earth), and Me (the mass of the Earth). (b) If the satellite is to be geosynchronous (that is, appearing to remain over a fixed position on the Earth), how fast...
4. Consider a satellite of mass m moving in a circular orbit around the Earth at a constant speed v and at an altitude h above the Earth's surface as illustrated in the figure. (a) Determine the speed of the satellite in terms of g, h, Re (the radius of the Earth), and Me (the mass of the Earth). (b) If the satellite is to be geosynchronous (that is, appearing to remain over a fixed position on the Earth), how...
An Earth satellite moves in a circular orbit 808 km above Earth's surface with a period of 100.8 min. What are (a) the speed and (b) the magnitude of the centripetal accelerat ion of the satellite? (a) Number747E3 Units m b) Numberi7.7 Units m/s 2
4. A 1000-kg satellite in circular orbit around the Earth is moving at a speed of 7 x 10 m/s. How much work must be done to "raise" the satellite to a higher circular orbit doubling its height above the surface of the Earth?
2. Support the space shuttle is in orbit about the earth at 400 km above its surface. Determine the orbital speed and the orbital period of the space shuttle. 3.calculate the minimum velocity (escape speed) a spacecraft must have to escape the gravitational force of the planet earth. Mearth=5.972 x 10^24kg 4. Calculate the schwarzschild radius of a black hole with the mass of the sun.Mearth=5.972 x 10^24kg
The International Space Station typically travels in a circular orbit at an altitude of 400 km above the Earth's surface. The Earth itself has a radius of about 6400 km. Assume that the space station travels in a circular orbit at constant speed (this is a perfectly reasonable assumption). A. Given that the value of g is 8.68m/s28.68m/s2at an altitude of 400 km, determine the value of the space station's speed in its circular orbit. _______ m/s B. At this...
+-6.66 points HRW10 4.PO56 An Earth satellite moves in a circular orbit 759 km above the Earth's surface. The period of the motion is 99.8 min. (a) What is the speed of the satellite? m/s (b) What is the magnitude of the centripetal acceleration of the satellite? m/s2 Additional Materials Section 4.5 H Aigebra Squareroots & Squares