Second order differential equation

AI Thread Summary
The discussion focuses on solving a second-order differential equation related to two particles connected by a spring. Participants seek clarification on the mathematical steps involved, particularly the application of the Binomial theorem in deriving the second last equation. The initial algebraic manipulations are deemed straightforward, but the transition to the final equation for the angular frequency, ω, requires further explanation. The standard solution for simple harmonic motion is referenced as a key component in the final steps. Overall, the thread emphasizes the need for a deeper understanding of the mathematical jumps in the solution process.
elevenb
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They used the Binomial theorem.
$$\frac{1}{(d + \Delta d)^2} =\frac{1}{d^2}\left(1 + \frac{\Delta d}{d}\right)^{-2}
= \frac{1}{d^2}\left(1 - 2\frac{\Delta d}{d} + \cdots\right)$$

Everything before that looks like straightforward algebra. The last step to find ##\omega## is the standard solution of the differential equation for simple harmonic motion.
 
Ignore- spotted mistake
 
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