The newtons gravitational force equation is given as, F = where G is constant and x is the separation of 2 masses. a. Derive the gravitational potential energy function U(r). Assume that U(r) +0 as r+ oo and r is positive. Graph the function. b. Determine the increase of work required to increase the separation distance between the particle. Assume ther=r to r=r + Ar
The newtons gravitational force equation is given as, F = where G is constant and x is the separation of 2 masses. a. Derive the gravitational potential energy function U(r). Assume that U(r) +0 as r+ oo and r is positive. Graph the function. b. Determine the increase of work required to increase the separation distance between the particle. Assume ther=r to r=r + Ar
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Transcribed Image Text:The newtons gravitational force equation is given as, F = aalE where G is constant and x is the separation of 2 masses.
a. Derive the gravitational potential energy function U(r). Assume that U(r) + 0 as r+ 0 and r is positive. Graph the function.
b. Determine the increase of work required to increase the separation distance between the particle. Assume ther=ri to r =r; + Ar
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