8. The approximate gravitational force between the earth and an individual with mass 60 kg is 2.39 - 1010 I(d) = Newtons, where d is the distance (in km) from the center of the earth to the d 1.195 - 10 individual. The equivalent force on a 3-kg textbook is T(d) = from the center of the earth to the surface is roughly 6, 371 kilometers. The individual is on a rocket such that their distance from the center of the earth is D(t) = 0.00131 – 0.00088t + 6371 kilometers, t seconds after launch. Newtons. The distance (a) Compute (I+T)(6371). Write a sentence interpreting this value within the applied context. (b) Compute (I/T) (6371). Write a sentence interpreting this value within the applied context. (c) Compute (I o D)(120). Write a sentence interpreting this value within the applied context.

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8. The approximate gravitational force between the earth and an individual with mass 60 kg is 2.39 - 1010 I(d) Newtons, where d is the distance (in km) from the center of the earth to the 1.195 · 10° individual. The equivalent force on a 3-kg textbook is T(d) = from the center of the earth to the surface is roughly 6, 371 kilometers. The individual is on a rocket such that their distance from the center of the earth is D(t) = 0.00131 – 0.00088t + 6371 kilometers, t seconds after launch. Newtons. The distance (a) Compute (I+T)(6371). Write a sentence interpreting this value within the applied context. (b) Compute (I/T) (6371). Write a sentence interpreting this value within the applied context. (c) Compute (I o D)(120). Write a sentence interpreting this value within the applied context.