![The total mechanical energy of a spring - mass system in simple harmonic motion is E = 12mω^2A^2 . Suppose the oscillating particle is replaced by another particle of double the mass The total mechanical energy of a spring - mass system in simple harmonic motion is E = 12mω^2A^2 . Suppose the oscillating particle is replaced by another particle of double the mass](https://haygot.s3.amazonaws.com/questions/2032166_1291246_ans_414dc28019774dab99aff93b419a1cca.jpeg)
The total mechanical energy of a spring - mass system in simple harmonic motion is E = 12mω^2A^2 . Suppose the oscillating particle is replaced by another particle of double the mass
![Conservation of Mechanical Energy for Hanging Spring-Block Oscillators - Overview ( Video ) | Physics | CK-12 Foundation Conservation of Mechanical Energy for Hanging Spring-Block Oscillators - Overview ( Video ) | Physics | CK-12 Foundation](https://s3.amazonaws.com/ck12bg.ck12.org/curriculum/107920/thumb_540_50.jpg)
Conservation of Mechanical Energy for Hanging Spring-Block Oscillators - Overview ( Video ) | Physics | CK-12 Foundation
![The total mechanicla energy of a spring mass sytem in simple harmonic motion is `E=1/2momega^2 A... - YouTube The total mechanicla energy of a spring mass sytem in simple harmonic motion is `E=1/2momega^2 A... - YouTube](https://i.ytimg.com/vi/Xpl6mFWyVWA/maxresdefault.jpg)