A steady current I goes through a wire loop PQR having shape of a right angle triangle with PQ = 3x, PR = 4x and QR = 5x. If the magnitude of the magnetic field at P due to this loop is k find the value of k. `((mu_(0)I)/(48pix))` find the value of k.

A steady current I goes through a wire loop PQR having shape of a right angle triangle with PQ = 3x, PR = 4x and QR = 5x . If the magnitude of the magnetic field at P due to this loop is k((mu_(0)I)/(48 pi x)) , find the value of K .

If int_0^1(3x^2+2x+k)dx=0, find the value of k

If the product of zeros of the quadratic polynomial f(x)=x^2-4x+k is 3, find the value of k .

A current loop, carrying a current of 5.0 A, is in the shape of a right triangle with sides 30,40, and 50 cm. The loop is in a uniform magnetic field of magnitude 80 mT whose direction is parallel to the current in the 50 cm side of the loop. Find the magnitude of (a) the magnetic dipole moment of the loop and (b) the torque on the loop.

If one root of 2x^(2)-5x+k=0 be double the other, find the value of k.

If x = 2k-1 and y=k is a solution the equation 3x-5y-7=0 ; find the value of k.

If one root of the quadratic equation 3x^(2)-10x+k=0 is reciprocal of the other, find the value of k.

If x=-1,\ y=2 is a solution of the equation 3x+4y=k , find the value of k

A long wire having a semi-circular loop of radius r carries a current I, as shown in Fig. Find the magnetic field due to entire wire.

In the figure shown two loops ABCD &EFGH are in the same plane. The smaller loop carries time varying current I=bt, where b is a positive constant and t is time. The resistance of the smaller loop is r and that of the larger loop is R : (Neglect the self inductance of large loop ). The magnetic force on the loop EFGH due to loop ABCD is (mu_(0)^(2)Iab)/(xpi^(2)R) ln""(4)/(3) . Find the value of x.