The acceleration of a particle, starting from rest, varies with time according to the relation `a =- B omega sin omegat.` The displacement of the particle at time t will be:

The displacement of a particle varies with time according to the relation y = alpha sin omegat + b cos omegat .

The acceleration fo a body in ms^-2 starting from rest varies with time in secnds as per the relation a = 3t + 4 then the magnitude of velocity of the body at t=2 s will be :

A particle moves alopng x-axis in such a way that its coordinates x varies with time t according to the equation. x = (2 - 5t + 6t^2) m. The initial velocity of the pawrticle is

What is relation between acceleration and displacement of a particle executing S.H.M?

A particle starts from the origin at t = 0 s with a velocity of 10.0 hatj m//s and moves in the x-y plane with a constant acceleration of (8.0hati + 2.0hatj) m s^-2 ,:- At what time is the x- coordinate of the particle 16 m? What is the y-coordinate of the particle at that time?

A book with many printing errors contains four different formulas for the displacement y of a particle undergoing a certain periodic motion :- y=a sin vt (a = maximum displacement of the particle, v = speed of the particle. T= time-period of motion). Rule out the wrong formulas on dimensional grounds.

In an inductor of self inductance L = 2 mH, current changes, with time according to relation I = t^2 e^-t . At what time, e.m.f. is zero?