Need Help about Deriving Radical.

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To derive the equation k = 4π²m/T² from T = 2π√(m/k), the first step is to isolate the square root by dividing both sides by 2π, leading to (T/2π)² = m/k. Squaring both sides results in T²/4π² = m/k. Rearranging gives T²/4π²m = 1/k, and taking the reciprocal leads to k = 4π²m/T². This process effectively demonstrates how to manipulate the original equation to achieve the desired form.
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I'm trying to derive T= 2π√m/k to become k= 4π2m/T2

How is that happen? Can someone please explain it to me? Thanks in advance!
 
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So you're starting from:

T = 2n \sqrt{\frac{m}{k}}

The first step would be to isolate the square root. How do you do that?
 
I don't know. I tried to this T=2π (m/k)1/2 to remove the radical. I don't what's next and I'm not even sure if that is really the 1st step.
 
If you have c= ab and want to "isolate" b, divide both sides by a: b= c/a.

If have a square root, y= \sqrt{x}, square both sides: x= y^2

In both cases we are "undoing" what was done by doing the opposite. In "c= ab", b is not isolated because it is multiplied by a. The opposite of "multiply by a" is "divide by a". The opposite of square root is the square.
 
Okay thanks I think I get it.

T= 2π√m/k

(T/2π)2 = √m/k

T2/4π2 = m/k

T2/4π2m = 1/k , then reciprocal both sides.
 
KevinPaul06 said:
Okay thanks I think I get it.

T= 2π√m/k

(T/2π)2 = √m/k
Probably a typo- you mean (T/2\pi)^2= \left(\sqrt{m/k}\right)^2

T2/4π2 = m/k

T2/4π2m = 1/k , then reciprocal both sides.
 

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