two spheres of M mass m and a third sphere of mass M form an equilateral triangle
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As seen in figure, two spheres of M mass m and a third sphere of mass M form an equilateral triangle, and a fourth sphere of mass m. is at the center of the triangle. The net gravitational force on that central sphere from the three other spheres is zero. (a) What is Min terms of m? (b) If we double the value of m, what then is the magnitude of the net gravitational force on the central sphere?
02
Oct
As seen in figure, two spheres of M mass m and a third sphere of mass M form an equilateral triangle, and a fourth sphere of mass m. is at the center of the triangle. The net gravitational force on that central sphere from the three other spheres is zero. (a) What is Min terms [...]
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