Neglecting Earth's rotation, find the energy needed to launch a satellite of mass m into circular...

A satellite of mass m = 2.00 ×103 kg is launched into a circular orbit of...

A satellite of mass m = 2.00 ×103 kg is launched into a circular orbit of orbital period T = 4.00 hours. Newton's gravitational constant is G = 6.67 ×10−11 N∙m2/kg2, and the mass and radius of the Earth are respectively M⨁ = 5.97 ×1024 kg and r⨁ = 6.37 ×106 m. Answer the following questions. What is the total mechanical energy (kinetic energy + potential energy) of the satellite in orbit? Take the gravitational potential energy of the satellite...

A satellite of mass 5570 kg orbits the Earth and has a period of 6600 s...

A satellite of mass 5570 kg orbits the Earth and has a period of 6600 s . determine the radius of its circular orbit. Express your answer using three significant figures and include the appropriate units. r = Determine the magnitude of the Earth's gravitational force on the satellite. Express your answer using three significant figures and include the appropriate units. Fgrav = Determine the altitude of the satellite. Express your answer using three significant figures and include the appropriate...

A satellite of mass 350 kg is in a circular orbit around the Earth at an...

A satellite of mass 350 kg is in a circular orbit around the Earth at an altitude equal to the Earth's mean radius. (a) Find the satellite's orbital speed. m/s (b) What is the period of its revolution? min (c) Calculate the gravitational force acting on it. N

What velocity is needed to launch a satellite into a circular orbit at an altitude of...

What velocity is needed to launch a satellite into a circular orbit at an altitude of 800 km above the surface of the Earth?

A satellite of mass m is in an elliptical orbit around the Earth, which has mass...

A satellite of mass m is in an elliptical orbit around the Earth, which has mass Me and radius Re. The orbit varies from closest approach of distance a at point A to maximum distance of b from the center of the Earth at point B. At point A, the speed of the satellite is v0. Assume that the gravitational potential energy Ug = 0 when masses are an infinite distance apart. Express your answers in terms of some or...

Two Earth satellites, A and B, each of mass m, are to be launched into circular...

Two Earth satellites, A and B, each of mass m, are to be launched into circular orbits about Earth's center. Satellite A is to orbit at an altitude of 5230 km. Satellite B is to orbit at an altitude of 24400 km. The radius of Earth REis 6370 km. (a) What is the ratio of the potential energy of satellite B to that of satellite A, in orbit? (b) What is the ratio of the kinetic energy of satellite B...

Two Earth satellites, A and B, each of mass m, are to be launched into circular...

Two Earth satellites, A and B, each of mass m, are to be launched into circular orbits about Earth's center. Satellite A is to orbit at an altitude of 5650 km. Satellite B is to orbit at an altitude of 22000 km. The radius of Earth REis 6370 km. (a) What is the ratio of the potential energy of satellite B to that of satellite A, in orbit? (b) What is the ratio of the kinetic energy of satellite B...

How much energy is required to move an Earth satellite of mass m from a circular...

How much energy is required to move an Earth satellite of mass m from a circular orbit of radius 2RE to one of radius 3RE? The constant RE is the radius of the Earth (just leave this as RE in your final answer)

Consider a satellite of mass m in a circular orbit of radius r around the Earth...

Consider a satellite of mass m in a circular orbit of radius r around the Earth of mass ME and radius RE. 1. What is the gravitational force (magnitude and direction) on the satellite from Earth? 2. If we define g(r) to be the force of gravity on a mass m at a radial distance r from the center of the Earth, divided by the mass m, then evaluate the ratio g(r)/g(RE)to see how g varies with radial distance. If...

A satellite orbits the Earth uniformly in a circular orbit with a velocity of magnitude 4.00...

A satellite orbits the Earth uniformly in a circular orbit with a velocity of magnitude 4.00 km/s. Use Newton's gravitation force as the force in Newton's Law of Acceleration, using also the centripetal acceleration . Solve for radius r of the satellite's orbit in terms of v . (a) Find then the altitude of the satellite above the surface of the Earth. Earth's mass and radius are 5.9810 kg and 6.3810 km. (b) Find the time it takes the satellite...