How Is the Formula for Kinetic Energy Derived?

AI Thread Summary
The formula for kinetic energy, KE = (mv^2)/2, can be derived from the work-energy theorem, which relates the work done on an object to its change in kinetic energy. Starting with Newton's second law, F = m(dv/dt), one can integrate the net force over the distance traveled. This involves substituting dx with v dt, leading to the integral of v dv. The final step of the derivation is left for further exploration. Understanding this derivation clarifies the relationship between force, work, and kinetic energy.
francescopadormo
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Hi,

I've always tken for granted that KE=(mv^2)/2, but never seen the derivation! I think it probably comes from U= - inegral of the force, but I can't see which force to use. Any help anyone? Maybe dimensional analysis was used?

Thanks!
 
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I suspect you are thinking of the "work-energy" theorem, in which one integrates the net force on an object over the distance traveled to obtain the change in KE.

Start with Newton's 2nd law:
F = m \frac{dv}{dt}

\int F dx = \int m \frac{dv}{dt} dx = m \int \frac{dx}{dt} dv = m \int v dv

I'll leave the last step to you.
 

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