Displacement and time equation of two particles moving along x-axis are `x_(1)=4+4sin omega t` and `x_(2)=3cos omega t` where `omega=pi` rad/s. Maximum separation will be at time t equal to

Passage VI Two particles collide when they are at same position at same time. Displacement time equation of two particles moving along x-axis are x_(1)=(8+3sinomegat)m and x_(2)=(4cosomegat)m Here, omega=pirad/s The two particles will collide after time t=...................s.

If i_(1)=3 sin omega t and (i_2) = 4 cos omega t, then (i_3) is

A particle moves along the x-axis according to the equation x=a sin omega t+b cos omega t . The motion is simple harmonic with

A particule moves in x - y plane acording to rule x = a sin omega t and y = a cos omega t . The particle follows

The position x of particle moving along x-axis varies with time t as x=Asin(omegat) where A and omega are positive constants. The acceleration a of particle varies with its position (x) as

Displacement-time equation of a particle executing SHM is x=4sin( omega t) + 3sin(omegat+pi//3) Here, x is in cm and t ini sec. The amplitude of oscillation of the particle is approximately.

The position of a particle moving along x-axis varies with time t according to equation x=sqrt(3) sinomegat-cosomegat where omega is constants. Find the region in which the particle is confined.

The displacement of two interfering light waves are y_(1)=4 sin omega t" and "y_(2)= 3 cos (omega t) . The amplitude of the resultant waves is (y_(1)" and "y_(2) are in CGS system)

The displacement x of a particle moving along x-axis at time t is given by x^2 =2t^2 + 6t . The velocity at any time t is

Current in an ac circuit is given by I= 3 sin omega t + 4 cos omega t, then