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Determine the ratio of Earth's gravitational force exerted on an 80-kg person when at Earth's surface and when 1100 km above Earth's surface. The radius of Earth is 6370 km.

Determine the ratio of Earth's gravitational force exerted on an 80-kg person when at Earth's surface and when 1100 km above Earth's surface. The radius of Earth is 6370 km.

College Physics
College Physics
11th Edition
ISBN:9781305952300
Author:Raymond A. Serway, Chris Vuille
Publisher:Raymond A. Serway, Chris Vuille
Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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**Determining the Gravitational Force Ratio** *Task*: Determine the ratio of Earth's gravitational force exerted on an 80-kg person when at Earth's surface and when 1100 km above Earth's surface. The radius of Earth is 6370 km. **Equation to Use:** \[ \frac{F_{E \text{ on } P, \text{ surface}}}{F_{E \text{ on } P, h}} = \] *Description*: The problem involves calculating the gravitational force ratio experienced by a person at two different positions relative to Earth: at the surface and at a certain height above the surface. To solve this, consider the gravitational force formula and the change due to the altitude difference. The radius of Earth is provided to assist in computations related both to the Earth's surface and 1100 km above it.
Transcribed Image Text:**Determining the Gravitational Force Ratio** *Task*: Determine the ratio of Earth's gravitational force exerted on an 80-kg person when at Earth's surface and when 1100 km above Earth's surface. The radius of Earth is 6370 km. **Equation to Use:** \[ \frac{F_{E \text{ on } P, \text{ surface}}}{F_{E \text{ on } P, h}} = \] *Description*: The problem involves calculating the gravitational force ratio experienced by a person at two different positions relative to Earth: at the surface and at a certain height above the surface. To solve this, consider the gravitational force formula and the change due to the altitude difference. The radius of Earth is provided to assist in computations related both to the Earth's surface and 1100 km above it.
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