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College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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
Transcribed Image Text:6. An object of mass 5.6 x107 kg is located at the Cartesian origin, (0m,0m). A second object, of mass
2.4x107 kg, is located at a position (50m, Om). Find the full magnitude and direction of the Gravitational force
experienced on a mass of 500kg, located at a position (50m, Om).
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- The diagram below shows three masses at the corners of a square of sides d = 5.10 m. Here, m1 = m2 = m and m3 = 5.10m where m = 2.00 kg. (a) What is the magnitude of the gravitational field at the center of the square due to these three masses?_________m/s2 (b) Suppose the two masses m1 and m2 are not equal. What value of m1 will produce a gravitational field at the center of the square directed vertically down?_________m/s2arrow_forwardThree masses are arranged on the surface of a pool table which is marked by a grid as follows: m1 4 kg at the origin, m2 7 kg at (0, 5) and m3 6 kg at (7, 0). What is the net gravitational force on m1 due to m2 and m3? G = 6.67 x 10-11 (Nm2/kg2)arrow_forwardThe Lunar reconnaissance orbiter (LRO) is currently in orbit around the moon on an exploration mission to map its surface. If it has a mass of 1820 kg and is orbiting at an elevation of 65.0 km from the surface, what is the gravitational force acting on the LRO due to the moon? The moon has a mass of 7.348 x 1022 kg and a radius of 1738 km. {G = 6.674 x 10-11 N⋅ m2/kg2}arrow_forward
- The separation distance between two 1.0 kg masses is changed. How is the mutual gravitational force affected in each case? (Assume F2 represents the new force and F1 represents the original force.) (a) The separation distance is two-fifths the original distance.F2 / F1 = (b) The separation distance is 8 times the original distance.F2 / F1 =arrow_forwardThe separation distance between two 1.0 kg masses is changed. How is the mutual gravitational force affected in each case? (Assume F2 represents the new force and F1 represents the original force.) (a) The separation distance is three-fourths the original distance.F2 / F1 = (b) The separation distance is 7 times the original distance.F2 / F1 =arrow_forwardObjects with masses of 220 kg and 410 kg are separated by 0.415 m. A 58.3 kg mass is placed midway between them. Find the magnitude of the net gravitational force exerted by the two larger masses on the 58.3 kg mass. The value of the universal gravi- tational constant is 6.672 × 10−11 N · m2/kg2. Answer in units of N. Leaving the distance between the 220 kg and the 410 kg masses fixed, at what distance from the 410 kg mass (other than infinitely remote ones) does the 58.3 kg mass experience a net force of zero? Answer in units of m.arrow_forward
- 3. Four masses are at the vertices of a square. Find the magnitude of the gravitational force on the mass m1. Given: m1 = 6 kg, m2 = 80 kg, m3 = 80 kg, m4 = 80 kg, r = 24 m. G = 6.674 x 10-11 N•m2/kg2.arrow_forwardAt their closest approach, Venus and Earth are 4.20 x 10 10 m apart. The mass of Venus is 4.87 x 10 × 10 24 point? 24 kg, the mass of Earth is 5.97 kg, and G = 6.67 x 10 -11 N. m 2/kg 2. What is the magnitude of the gravitational force exerted by Venus on Earth at that 6.30 x 1020 N 4.62 x 1028 N 1.10 x 1018 N 1.72 x 1019 N 5.43 x 1026 Narrow_forward
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