Explanation Write the expression for the initial energy of the spacecraft. E i = − G M m 2 r i (I) Here, E i is the initial energy, M is the mass of earth, m is the mass of the spacecraft, r i is the separation between the spacecraft and earth at perigee. Write the expression for the final energy of the spacecraft. E f = − G M m 2 r f (II) Here, E f is the final energy, r f is the separation between the spacecraft and earth at apogee. Write the expression for the r i . r i = R E + h (III) Here, R E is the radius of earth, h is the height of the spacecraft from the earth’s surface. Use equation (III) in (I) to solve for E i . E i = − G M m 2 ( R E + h ) (IV) Rite the expression for the r f . r f = R E + h + a (V) Here, a is the separation between the spacecraft and the earth at apogee. Use equation (V) in (II) to solve for E f . E f = − G M m 2 ( R E + h + a ) (VI) Write the expression for the energy input required from the engine to put the spacecraft in the orbit. E = E f − E i (VII) Here, E is the energy input required from the engine to put the spacecraft in the orbit. Conclusion: Substitute 6.67 × 10 − 11 N ⋅ m 2 / kg 2 for G , 5.98 × 10 24 kg for M , 1.00 × 10 4 kg for m , 6.37 × 10 6 m for R E , 500 km for h in equation (IV) to find E i . E i = − ( 6.67 × 10 − 11 N ⋅ m 2 / kg 2 ) ( 5.98 × 10 24 kg ) ( 1

Principles of Physics: A Calculus-Based Text, Hybrid (with Enhanced WebAssign Printed Access Card)

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Chapter 11, Problem 44P

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The energy used by the spacecraft from the fuel to achieve the orbit.

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Chapter 11, Problem 43P

Chapter 11, Problem 45P

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