The S.H.M. of a particle is given by the equation `y=3 sin omegat + 4 cosomega t` . The amplitude is

The displacement of a particle is represented by the equation y = sin^3 omega t . The motion is

The displacement of a particle is represented by the equation y = 3 cos [ pi/4 - 2omega t] . The motion of the particle is

A particle moves in x-y plane according to ru le x =a sin omegat and y= a cos omegat . The particles follows:

Two parallel S.H.M.s have equations y_1=A_1sin(omegat+2pi) and y_2=A_2sin(omegat+4pi) . The amplitude of the resultant motion is

A simple harmonic wave having an amplitude a and time period T is represented by the equation y = 5"sin"pi(t + 4)m . Then the value of amplitude (a) in (m) and time period (T) in second are

A particle of mass 4 kg is executing S.H.M. Its displacement is given by the equation Y=8 cos[100t+pi//4] cm. Its maximum kinetic energy is

Equation of motion in the same direction are given by ltbygt y_(1)=2a sin (omega t-kx) and y_(2)=2a sin (omega t-kx - theta ) The amplitude of the medium particle will be

Chose the correct option The displacement s of a particle is expressed by the relation s=(6t^2 - 3t + 6) metres and t is in seconds. The velocity of the particle at t = 2 seconds is ... m//s .

The maximum velocity of a particle in S.H.M. is 0.16 mis and maximum acceleration is 0.64 m/ s^2 . The amplitude is

A simple harmonic motion is represented by the equation, y = 5 sin pi(t+4) . Then the values of amplitude A and initial phase prop are respectively.