A body oscillator with SHM according to the equation (in SI units)
`x= 10cos [2pi t +(pi)/(4)]`
At `t= 1.5s` calculate the acceleration of the body.

A body oscillator with SHM according to the equation (in SI units) x= 10cos [2pi t +(pi)/(4)] At t= 1.5s calculate the speed.

A body oscillator with SHM according to the equation (in SI units) x= 10cos [2pi t +(pi)/(4)] At t= 1.5s calculate the displacement.

A body oscillates with SHM according to the equation (in SI units), x = 5 cos [2pi t + pi//4] . At t = 1.5 s, calculate the (a) displacement, (b) speed and (c) acceleration of the body.

A particle executes SHM according to equation x=10(cm)cos[2pit+(pi)/(2)] , where t is in seconds. The magnitude of the velocity of the particle at t=(1)/(6)s will be :-

A point mass oscillates along the x-axis according to the law x=x_(0) cos(omegat-pi//4) . If the acceleration of the particle is written as a=A cos(omegat+delta) then ,

A string vibrate according to the equation y = 5 sin ((pi x)/(3)) cos (40 pi t) where x and y in cm's and t is in second. (i) What is the equation of incident and reflected wave ? (ii) What is the distance between the adjacent nodes ? (iii) What is the velocity of the particle of the string at the position x = 1.5 cm when t = (9)/(8) sec ?

An object performs S.H.M. of amplitude 5 cm and time period 4 s at t = 0 the object is at the centre of the oscillation i.e., x = 0 then calculate. (i) Frequency of oscillation , (ii) The displacement at 0.5 s (iii) The maximum acceleration of the object , (iv) The velocity at a displacement of 3 cm .