The flux linked with a coil at any instant t is given by `Phi_(B)=10t^(2)-50t^(2)-50t+250.` The induced emf at t = 3s is

The magnetic flux throug a coil perpendicular to the plane is given by phi=5t^(3)+4t^(2)+2t calculate the induced emf through the coil at t =2S.

A particle is moving in a straight line its displacement at any instant t is given by x=5t^(2)+20t^(3) . Find the average acceleration in the interval t = 0 to t = 3 seconds.

A particle moves along a horizontal line such that its position at any time t is given by s(t) = t^(3) - 6t^(2) + 9t + 1 , s in meters and t in seconds. At what time the particle is at rest?

A coil of resistance 400 is placed in a magnetic field. If the magnetic flux phi(wb) linked with the coil varies with time t (sec) as phi=50t^2 + 4 . The current in the coil t= 2sec is:

The magnetic flux passing through a coil perpendicular to is plane is a function of time and is given by Phi_(B)=(2t^(3)+4t^(2)+8t+8) Wb. If he resistance of the coil is 5Omega, determine the induced current through the coil at a time t = 3 second.

The position of a particle moving along a horizontal line of any time t is given by s(t)=3t^(2)-2t-8 . The time at which the particle is at rest is

The position of a particle moving along a horizontal line of any time t is given by s(t)=3t^(2)-2t-8 . The time at which the particle is at rest is …………….. .