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24 October, 14:50

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 6370 km. Satellite B is to orbit at an altitude of 19 110 km. The radius of Earth RE is 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 to that of satellite A, in orbit? (c) Which satellite has the greater total energy if each has a mass of 14.6 kg? (d) By how much?

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  1. 24 October, 15:11
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    Orbital radius of satellite A, Ra = 6370 + 6370 = 12740 km

    Orbital radius of satellite B, Rb = 6370 + 19110 = 25480 km

    Orbital potential energy of a satellite = - GMm / r where G is gravitational constant, M is mass of the earth and m is mass of the satellite

    Orbital potential energy of a satellite A = - GMm / Ra

    Orbital potential energy of a satellite B = - GMm / Rb

    PE of satellite B / PE of satellite A

    = Ra / Rb

    = 12740 / 25480

    = 1 / 2

    b) Kinetic energy of a satellite is half the potential energy with positive value, so ratio of their kinetic energy will also be same

    KE of satellite B / KE of satellite A

    = 1 / 2

    c) Total energy will be as follows

    Total energy = - PE + KE

    - P E + PE/2

    = - PE / 2

    Total energy of satellite B / Total energy of A

    = 1 / 2

    Satellite B will have greater total energy because its negative value is less.
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