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Questions Chapter 13 Gravitation 13-1 Newton's Law of Gravitation 13-2 Gravitation and Principle of Superposition 13-3 Gravitation Near Earth's Surface 13-4 Gravitation Inside Earth 13-5 Gravitational Potential Energy 13-6 Planets and Satellites: Kepler's Laws 13-7 Satellites: Orbits and Energy Ch13-page 1

13-2 Gravitation and Principle of Superposition F-062 Eight balls of different masses are placed along a circle as shown in Fig. 8 The net force on a ninth ball of mass m in the center of the circle is in the direction of: A) E B) SE C) NE D) N E) W Answer C Ch13-page 2

13-2 Gravitation and Principle of Superposition F-061 Fig. 12 shows five configurations of three particles, two of which have mass m and the other one has mass M. The configuration with the least (minimum) gravitational force on M, due to the other two particles is: A) 5 B) 1 C) 3 D) 4 E) 2 Answer E Ch13-page 3

13-2 Gravitation and Principle of Superposition F-042 Four point masses are at the corners of a square whose side is 20 cm long (see Fig 3). What is the magnitude of the net gravitational force on a point mass m5 = 2.5 kg located at the center of the square? A) 3.3 x10-8 N B) 1.1 x10-8 N C) 2.2 x10-8 N D) 4.4 x10-8 N E) 6.6 x10-8 N Answer A Ch13-page 4

13-2 Gravitation and Principle of Superposition F-042 Two particles with masses M and 4*M are separated by a distance D. What is the distance from the mass M for which the net gravitational force on a mass m is zero? A) D/3 B) D/2 C) 3*D/4 D) 4*D/3 E) 2*D/3 Answer A Ch13-page 5

13-4 Gravitation Inside Earth F-061 Two uniform concentric spherical shells each of mass M are shown in Fig. 11. The magnitude of the gravitational force exerted by the shells on a point particle of mass m located a distance d from the center, outside the inner shell and inside the outer shell, is: A) GMm/d 2 B) 2GMm/d 2 C) GMm/(2d 2 ) D) 4GMm/d 2 E) zero Answer A Ch13-page 6

13-5 Gravitational Potential Energy F-062 The escape velocity of an object of mass 200 kg on a certain planet is 60 km/s. When the object is on the surface of the planet, the gravitational potential energy of the object-planet system is: A) 3.6 x 10 11 J B) + 3.6 x 10 11 J C) 3.6 x 10 5 J D) + 3.6 x 10 5 J E) 0 J Answer A Ch13-page 7

13-5 Gravitational Potential Energy F-061 Three identical particles each of mass m are placed on a straight line separated by a distance d as shown in Fig. 10. To remove the particle at the center to a point far away (where U = 0), the work that must be done by an external agent is given by: A) 4 Gm 2 /d B) 2 Gm 2 /d C) Gm 2 /d D) 4Gm 2 /d E) zero Answer B Ch13-page 8

13-5 Gravitational Potential Energy F-042 What is the escape speed on a spherical planet whose radius is 3200 km and whose gravitational acceleration at the surface is 4.00 m/s2? A) 5.06 km/s B) 3.58 km/s C) 11.2 km/s D) 9.80 km/s E) 4.00 km/s Answer A Ch13-page 9

13-5 Gravitational Potential Energy F-042 An object is fired vertically upward from the surface of the Earth (Radius = R) with an initial speed of (Vesc)/2, where (Vesc = escape speed). Neglecting air resistance, how far above the surface of Earth will it reach? A) R/2 B) R/3 C) 3*R D) 2*R E) R Answer B Ch13-page 10

13-5 Gravitational Potential Energy F-041 An object is fired vertically from the surface of Earth. It reaches a maximum height of 2 Re above the surface of Earth. What is the initial speed of the object? (Re= radius of Earth = 6.37x10 6 m, mass of Earth = 5.98x10 24 kg) A) 1.2 x10 4 m/s B) 2.6 x10 4 m/s C) 9.1 x10 3 m/s D) 7.5 x10 3 m/s E) 9.8 m/s Answer C Ch13-page 11

13-6 Planets and Satellites: Kepler's Laws F-062 A planet has two moons of masses m 1 = m and m 2 = 2m and orbit radii r 1 = r and r 2 = 2r, respectively. The ratio of their periods T 1 /T 2 is: A) 0.13 B) 0.35 C) 1 D) 4 E) 0.71 Answer B Ch13-page 12

13-6 Planets and Satellites: Kepler's Laws F-042 A planet requires 300 (Earth) days to complete its circular orbit about its sun (mass M = 6.0*10 30 kg). The orbital speed of the planet is: A) 6.5x10 4 m/s B) 5.4x10 4 m/s C) 4.6x10 4 m/s D) 3.5x10 4 m/s E) 7.5x10 4 m/s Answer C Ch13-page 13

13-6 Planets and Satellites: Kepler's Laws F-041 The planet Mars has a satellite that travels in a circular orbit of radius 9.40 x 10 6 m with a period of 2.754 x 10 4 s. Calculate the mass of Mars from this information. A) 6.48 x 10 23 kg B) 4.56 x 10 26 kg C) 3.95 x 10 23 kg D) 5.90 x 10 26 kg E) 1.00 * x 10 3 kg Answer A Ch13-page 14

13-7 Satellites: Orbits and Energy F-062 A satellite in a circular orbit around Earth has a kinetic energy of 1.0 x 10 8 J. The mechanical energy of the satellite-earth system is: A) + 2.0 x 10 8 J B) 1.0 x 10 8 J C) 2.0 x 10 8 J D) 1.0 x 10 8 J E) 0 J Answer D Ch13-page 15

13-7 Satellites: Orbits and Energy F-061 A satellite of mass m and kinetic energy K is in a circular orbit around a planet of mass M. The gravitational potential energy of this satelliteplanet system is: A) 4K B) K/2 C) K/2 D) K E) -2K Answer E Ch13-page 16

13-7 Satellites: Orbits and Energy F-041 A 100-kg spaceship is in a circular orbit of radius 2*Re about the Earth. How much energy is required to transfer the spaceship to an orbit of radius 4*Re? ( Re=radius of Earth= 6.37x10 6 m, mass of the Earth= 5.98x10 24 kg) A) 7.8 x10 8 J. B) 6.5 x10 9 J. C) 3.9 x10 8 J. D) 2.9 x10 9 J. E) 1.6 x10 8 J. Answer A Ch13-page 17

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