Three uniform spheres of masses m1 = 2.50 kg, m2 = 4.00 kg, and m3 = 6.50 kg are placed at the corners of a right triangle (see figure below). Calculate the magnitude of the resultant gravitational force (in 10-11 N) on the object of mass m2, assuming the spheres are isolated from the rest of the Universe.

Three uniform spheres of masses m1 = 2.50 kg, m2 = 4.00 kg, and m3 = 6.50 kg are placed at the corners of a right triangle (see figure below). Calculate the magnitude of the resultant gravitational force (in 10-11 N) on the object of mass m2, assuming the spheres are isolated from the rest of the Universe.

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter13: Temperature, Kinetic Theory, And The Gas Laws

Section: Chapter Questions

Problem 39PE: Some incandescent light bulbs are filled with argon gas. What is vrms for argon atoms near the...

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Central Force

Central force is the force that acts along the center of mass of one body to the center of mass of another body. Its direction from or away from a point on a body to another is called the center of the force. Such forces include gravitational force between two massive objects or electrostatic forces between two charged particles. So from atoms to planets, the central forces play an important role in shaping our daily lives. One of the remarkable features of central forces is that they are conservative, i.e. the total energy of a central force system can always be expressed as a gradient of a potential energy function.

Question

Three uniform spheres of masses m₁ = 2.50 kg, m₂ = 4.00 kg, and m₃ = 6.50 kg are placed at the corners of a right triangle (see figure below). Calculate the magnitude of the resultant gravitational force (in 10^-11 N) on the object of mass m₂, assuming the spheres are isolated from the rest of the Universe.

(0.9.00) 111
(-4.00, 0) m
mg
32
m
F1z
m₂
-x

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