The angle turned through by the flywheel of a generator during a time interval r is given by `f=at+bt^(3)-ct^(4)`,where a, b, and care constants. What is the expression for its (a) angular speed and (b) angular acceleration?

The linear momentum of a particle as a function of time t is given by p= a+bt , where a and b are positive constants . What is the force acting on the particle ?

The linear momentum of a particle as a fuction of time 't' is given by , p = a +bt , where a and b are positive constants . What is the force acting on the particle ?

A wheel rotates with an angular acceleration given by alpha= 4at^(2)-3bt^(2) , where t is the time and a and bare constants. If the wheel has an initial angular speed w_(0) , write the equations for (a) the angular speed and (b) the angle tumed through as functions of time.

A wheel rotates with an angular acceleration given by alpha= 4at^(2)-3bt^(2) , where t is the time and a and bare constants. If the wheel has an initial angular speed w_(0) , write the equations for (a) the angular speed and (b) the angle tumed through as functions of time.

For a body in a uniformly accelerated motion, the distance of the body from a reference point at time 't' is given by x = at + bt^2 + c , where a, b , c are constants. The dimensions of 'c' are the same as those of (A) x " " (B) at " " (C ) bt^2 " " (D) a^2//b

A force F is given by F = at +bt^2 , where t' is time. What are dimensions of 'a' and 'b' ?

A force F is given by F = at +bt^2 , where t' is time. What are dimensions of 'a' and 'b' ?