Gravity equation earth
[DOCX File]University of Arizona
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c) The gravitational force between Earth and the Sun would double. For Earth and present Sun: F = 1*10,000 = 10,000. For Earth and twice-massive Sun: F = 2*10,000 = 20,000. So the force doubles. 6. Well, we have the effect of changing the mass and the distance simultaneously. We can write the force equation like this: F = M1M2/d2.
[DOCX File]Gravitation - Georgetown ISD
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Here, F = the force of gravity, G = gravitational constant (6.674x10-11Nm2/kg2), m 1 = mass of the first thing (in kg), m 2 = mass of the second thing (in kg), and r …
[DOC File]The Acceleration Due to Gravity - SMU Physics
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To compute the magnitude of the gravitational force between the earth and an object, we substitute the mass of the earth (ME) and the distance from the object to the center of the earth (r). When the objects are on or near the earth's surface, this distance can be approximated by the value for the radius of the earth (RE), so that Equation (2 ...
[DOC File]Gravitation
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The only object you encounter regularly that is massive enough to exert a noticeable force on you is the earth. This force is your weight. Example: A melon is taken to the moon as a food item by astronauts. Its mass is 0.65kg. The mass of the moon is …
[DOC File]Gravitation
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To compute the magnitude of the gravitational force between the earth and an object, we substitute the mass of the earth (ME) and the distance from the object to the center of the earth (r). When the objects are on or near the earth's surface, this distance can be approximated by the value for the radius of the earth (RE), so that Equation (2 ...
How to Calculate Force of Gravity: 10 Steps (with Pictures)
Determine the force of gravity between two 3.0 kg masses held 1.0 m apart. Determine the force of gravity between the Earth (5.98 × 1024 kg) and a 70 kg person standing on Earth’s surface. The radius of Earth is 6.38 × 106 m. Compare this value to the person’s weight. The mass of the Moon is 7.34 × 1022 kg and its radius is 1.74 × 106 m.
[DOCX File]WORKSHEET -- UNIVERSAL GRAVITATION
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Assuming the earth behaves as if its whole mass M were concentrated at its centre O. mg = GMm/r2 . g = GM/r2 7. Variation of g with altitude. Consider g' the acceleration due to gravity at a distance 'a' from the centre of the earth. r is the radius of the earth and g is the acceleration due to gravity on earth's surface.
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