Error Propogation - E of Gravity due to r

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The discussion focuses on deriving an algebraic expression for the error in gravity (Eg) due to uncertainty in the radius (r), while assuming no errors in G and M. The equation for gravitational acceleration is given as g = (GM)/r^2. Participants explore the relationship between changes in r and g, emphasizing the need to avoid calculus in favor of algebraic methods. The conversation highlights the use of binomial expansions to approximate changes in g due to small changes in r. Ultimately, the goal is to express the error in gravity without resorting to derivatives.
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Homework Statement


The acceleration due to gravity is given by Newton's universal law of gravitation as:
g=(GM)/r^2

Derive an algebraic expression for the error in gravity (Eg) due to the uncertainty in r. You may assume that the errors in G & M = 0; (EG & EM = 0)

Let E=error in for internet purposes

Homework Equations



g=(GM)/r^2

The Attempt at a Solution



r^2=(GM)/g
r=(GM/g)^(1/2)
r=[(GM)^(1/2)]/[g^1/2]

This is calculus, i can't see a classical algebraic way of doing this..

any help please?
 
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Suppose f is a function of r. Then:

f + \delta f \approx f(r) + \delta r f^{\prime}(r)

so \delta f \approx \delta r f^{\prime}(r)

Can you see why this is the case?
 
in the second half of that you are taking the derivative of the function, as far as i am convinced this course is an algebra based course and I'm trying to figure out an algebraic response to this question, without taking the derivative at any point... would it be
r^2+Er^2=GM/g+Eg
 
Okay, then:

g + \delta g = \frac{GM}{(r + \delta r)^2}

Knowing that g = \frac{GM}{r^2}

Apply binomial expansions as necessary.
 

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