College Physics
11th Edition
ISBN: 9781305952300
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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- In the figure, three 8.28 kg spheres are located at distances d1 = 0.415 m, and d2 = 0.414 m. What are the (a) magnitude and (b) direction (relative to the positive direction of the x axis) of the net gravitational force on sphere B due to spheres A and C? di В (a) Number i Units (b) Number Unitsarrow_forwardWhat is the magnitude of the gravitational force of the earth on a 60 kg person? The earth has mass 5.98 x 1024 kg and radius 6.37 x 106 m.arrow_forwardAt what altitude above Earth's surface would the gravitational acceleration be 2.90 m/s2? (Take the Earth's radius as 6370 km.)arrow_forward
- A space probe is launched from Earth headed for deep space. At a distance of 10,000 miles from Earth's center, the gravitational force on it is 434 lb. What is the size of the force when it is at each of the following distances from Earth's center? (a) 20,000 miles lb(b) 30,000 miles lb(c) 100,000 miles lbarrow_forwardIn the figure, three 9.74 kg spheres are located at distances d₁ = 0.953 m, and d₂ = 0.215 m. What are the (a) magnitude and (b) direction (relative to the positive direction of the x axis) of the net gravitational force on sphere B due to spheres A and C? (a) Number i (b) Number i dr B Units Units î ✪arrow_forwardProblem#2 Given: Newton’s Gravitational Law states that the force, F, between two bodies with masses m1 and m2, respectively, is given by: F=G(m1m2/r2) where G is the universal gravitational constant, and r is distance between the two bodies. Required: Calculate the gravitational force between two humans of mass 50 kg and 100 kg who are 2, 4, 6, 8, and 10 marrow_forward
- A space probe is launched from Earth headed for deep space. At a distance of 10,000 miles from Earth's center, the gravitational force on it is 510 lb. What is the size of the force when it is at each of the following distances from Earth's center? (a) 20,000 miles Ib (b) 30,000 miles Ib (c) 100,000 miles Ibarrow_forwardProblem#2 Given: Newton’s Gravitational Law states that the force, F, between two bodies with masses m1 and m2, respectively, is given by: F=G(m1m2/r2) where G is the universal gravitational constant, and r is distance between the two bodies. Required: Calculate the gravitational force between the Earth and the Moon for an average distance of 385,000 km. Calculate the gravitational force between the Earth and the Sun, and the Earth and Jupiter.arrow_forwardObject 1 with m1 = 2.5 kg and Object 2 with m2 = 13.5 kg are separated by r = 0.14 m. Express the magnitude of the gravitational force F in terms of m1, m2, r, and the gravitational constant G.arrow_forward
- A 3000-kg satellite orbits the Earth in a circular orbit 11797 km above the Earth's surface (Earth radius = 6380 km, Earth Mass = 5.97x1024 kg). What is the gravitational force (in newtons, N) between the satellite and the Earth? Hint: The radius of the Earth + the height of the orbit = the center-to-center distance needed for the equation. You also need the universal gravitational constant (G), which is not 9.81 m/s2. Be careful. Gmim2 Farrow_forwardScientists want to place a 4 × 103 kg satellite in orbit around Mars. They plan to have the satellite orbit a distance equal to 2.4 times the radius of Mars above the surface of the planet. Here is some information that will help solve this problem: mmars = 6.4191 x 1023 kgrmars = 3.397 x 106 mG = 6.67428 x 10-11 N-m2/kg2 1.)What is the force of attraction between Mars and the satellite? 2.)What speed should the satellite have to be in a perfectly circular orbit? 3.)How much time does it take the satellite to complete one revolution?arrow_forwardWhat is the gravitational field intensity at a distance of 8.4 x 107 m from the centre of Earth?arrow_forward
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