Question:

This is the derivation for time period of ring Module page

Last updated: 6/6/2023

This is the derivation for time period of ring Module page

This is the derivation for time period of ring Module page 69 But in page 72 the ans written is different This is page 69 If a x E F The force on a negative point charge q is 29 280a Q 2 a 2 X 3 4 4 2a x kx where k X x where is the linear charge density m T 2T 2 a k It should be noted that if x is not negligible relatash Educational vices Limited about the centre but the motion will not be simple harmonic On releasing the point charge q of mass m it will E 29 28 m 29 as lava IT JE Foundation This is page 72 Please explain the derivation and what is the difference between th both formulas Electric field on the axis of a uniformly charged ring of dius Qx 4 R x to a the negative charged particle will oscillate 3 where Q is total charge on the 1 if x a with the time period E callittu a distance x from the centre is R at x 1 Time period of SHM 2 of Aakasher 4TE MR