Taylor series expansion for gravitational force

AI Thread Summary
The discussion focuses on deriving a polynomial expression for gravitational force using a Taylor series expansion. The gravitational force formula is given as Fg = G*M*m/R^2, and the objective is to find the force at a height y much smaller than the Earth's radius R. The approach involves expanding the equation Fg = G*M*m/(R+y)^2 around y=0, leading to the expression R^-2(1 + y/R)^-2. Participants seek guidance on correctly setting up the Taylor series and utilizing resources like Wolfram Alpha for assistance. The goal is to achieve a first-order approximation of gravitational force at height y.
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Homework Statement


The magnitude of the gravitational force exerted by the Earth on an object of mass m at the Earth's surface is
Fg = G*M*m/ R^2
where M and R are the mass and radius of the Earth.
Let's say the object is instead a height y << R above the surface of the Earth. Using a Taylor series or binomial expansion, find a polynomial expression in y for the force of gravity acting on this object, correct to first order (i.e., in this case, the lowest "non-trivial" order of the Taylor series).


Homework Equations


taylor series equation


The Attempt at a Solution


I set up the equation as Fg=G*M*m/(R+y)^2 centered around y=0

I'm just lost on how to set this up, what is the right equation and point to center around?
 
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(R+y)^-2 = R^-2(1 + y/R)^-2 Expand this about y = 0

Using as input "R^-2(1 + y/R)^-2"

In the following link, you may need a free plugin,

http://www.wolframalpha.com/input/?i=R^-2%281+%2B+y%2FR%29^-2&cdf=1

See series expansion in the above link.
 
Thanks for the help
 

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