x-t equation of a particle in SHM is given as x=`1.0sin(12pit)` in SI units. Potential energy at mean position is zero. Mass of particle is `1/4` kg. Match the following table (SI units).

In SHM , potential energy of a particle at mean position is E_(1) and kinetic enregy is E_(2) , then

A particle of mass 1 kg executing S.H.M. is given by y = 2 cos (10t+pi//3) in SI units. Its maximum potential energy is

The displacement of a particle in SHM is x = 3sin (20 pit) +4 cos(20pit)cm . Its amplitude of oscillation is

Displacement-time equation of a particle moving along x-axis is x=20+t^3-12t (SI units) (a) Find, position and velocity of particle at time t=0. (b) State whether the motion is uniformly accelerated or not. (c) Find position of particle when velocity of particle is zero.

The equation for the displacement of a particle executing SHM is x = 5sin (2pit)cm Then the velocity at 3cm from the mean position is( in cm//s)

The displacement of a particle executing SHM is given by Y=5 " sin "(4t+(pi)/(3)) If T is the time period and the mass of the particle is 2g, the kinetic energy of the particle When t= (T)/(4) is given by-

Potential energy of a particle at mean position is 4 J and at extreme position is 20 J. Given that amplitude of oscillation is A. Match the following two columns

The displacement of a particle of mass 3g executing simple harmonic motion is given by x =3sin (0.2t) in SI units. The kinetic energy of the particle at a point which is at a displacement equal to 1//3 of its amplitude from its mean position is

Velocity-time equation of a particle moving in a straight line is, v=(10+2t+3t^2) (SI units) Find (a) displacement of particle from the mean position at time t=1s, if it is given that displacement is 20m at time t=0 . (b) acceleration-time equation.