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Thompkins: PHYSICS: Universal Law of Gravitation 1. Find the force of gravity between two physics students that have masses of 74.0 kg and 82.5 kg if they are sitting 95.0 cm apart. 2. A 1450 kg spacecraft is drifting in space. The force of gravity between it and the Earth is 3860 N. a) b) How far is it from the center of the Earth? How far is it above the surface of the Earth? (Earth radius = 6.38x106m) 3. What would happen to the force of gravity on the spacecraft in question #2 if the distance between the spacecraft and the center of the Earth was: a) Tripled? b) Halved? 4. What is the force of gravity on a 24.0 kg table sitting on the Earth? 5. 6. If the weight of a classroom Physics textbook is 42 N, what is the books mass? If the textbook in question #5 was taken to the Moon, would its mass and/or weight change? Complete the following table for these objects “g” is the force of gravity per kilogram (N/kg) Weight is the force of gravity (N) and can be found by F=mg 7. Object Mass (kg) Radius (m) Moon 7.36x1022 1.74x106 Venus 4.87x1024 6.05x106 Earth 5.98x1024 6.38x106 Mars 6.40x1023 3.40x106 Jupiter 1.90x1027 7.15x107 Sun 1.99x1030 6.96x108 Gravitational Field Strength “g” at the surface of the object (N/kg) Weight of an 80.0 kg student standing on this object (N) 8. What is the Earth’s gravitational field strength “g” at the top of Mt. Everest, which is 8400 m above sea level? 9. What is the size of the force of gravity between the Earth and the Sun? A distance of 1.50x1011 m separates them. 10-11. Derive Kepler’s 3rd Law 12) A man takes his dog for a walk on a deserted beach. Treating people and dogs as point objects for the moment, find the force of gravity between the 105 kg mand and his 11.2 kg dog when they are separated by a distance of (a) 1.00 m and (b) 10.0 m. 13) If you climb to the top of Mt. Everest, you will be about 5.50 mi above sea level. What is the acceleration due to gravity at this altitude? (a) Find the acceleration of gravity on the surface of the Moon. (b) The lunar rover had a mass of 225 kg. What was its weight on the Earth and on the Moon? (Mass of Moon and its radius is ) 14) Find the mass of Mars, given that its radius is acceleration of gravity on its surface is , and that the . 15) Find the altitude above the Earth's surface where a satellite orbits with a period of one day ( , , ) _____________________________________________________ 16) The Earth revolves around the Sun once a year at an average distance of . (a) Use this information to calculate the mass of the Sun. (b) Find the period of revolution for the planet Mercury, whose average distance from the Sun is .