The magnetic field in a region is given by `vec(B)=B_(0)(1+(x)/(a))hat(k)`. A square loop of edge length 'd' is placed with its edge along X-axis and Y-axis. The loop is moved with a constant velocity `vec(V)=V_(0)hat(i)`. The emf induced in the loop is

(a) Obtain an expression for the mutual inductance between a long straight wire and a square loop of side a as shown in figure. (b) Now assume that the straight wire carries a current of 50 A and the loop is moved to the right with a constant velocity, v = 10 m/s. Calculate the induced emf in the loop at the instant when x = 0.2 m. Take a = 0.1 m and assume that the loop has a large resistance.

A coil of area A is placed in the X-Y plane. A uniform magnetic field B_0hati established. The emf induced in the coil is ____

The alectric potential in a region is given by the relation V(x)=4+5x^(2) . If a dipole is placed at position (-1, 0) with dipole moment vec(p) pointing along positive Y-direction, then

A circular loop of radius R is placed in the uniform magnetic field. The value of magnetic field changes is given by equation B=B_0 e^(-t/tau) . Where B_0 and tau are constants. The emf induced in the coil is ____

A particle travels so that its acceleration is given by vec(a)=5 cos t hat(i)-3 sin t hat(j) . If the particle is located at (-3, 2) at time t=0 and is moving with a velocity given by (-3hat(i)+2hat(j)) . Find (i) The velocity [vec(v)=int vec(a).dt] at time t and (ii) The position vector [vec(r)=int vec(v).dt] of the particle at time t (t gt 0) .

A block is moving along y- axis with velocity vec(v)_(A)=4hat(j) on a plank relative to ground and the plank is moving along x- axis with velocity vec(v)_(P)=3hat(i) at any instant of time. The unit vector in dirction of fricition force acting on block at this moment is :-

A particle is moving in a plane with velocity given by vec(u)=u_(0)hat(i)+(aomega cos omegat)hat(j) , where hat(i) and hat(j) are unit vectors along x and y axes respectively. If particle is at the origin at t=0 . Calculate the trajectory of the particle :-

For the given vector vec(A)=3hat(i)-4hat(j)+10hat(k) , the ratio of magnitude of its component on the x-y plane and the component on z- axis is

For the given vector vec(A)=3hat(i)-4hat(j)+10hat(k) , the ratio of magnitude of its component on the x-y plane and the component on z- axis is