The figure shows two infinite parallel sheets of current, with current per unit length `lamda_(1) and lamda_(2)`. If `B_(P), B_(Q) and B_(R)` represent the magnetic field at the points P, Q and R respectively, then

There are infinite equipotential lines all parallel to BC in a right angled triangular region ABC as shown in the figure. All the points on a line have the same potential proportional to the length of the line. If E_(P) , E_(Q) & E_(R ) denote the electric field at P , Q and R , respectively, then

Two thick wires and tow thin wires, all of same material and same length from a squre in the three different ways P, Q and R as shown. The current flowing through the arrangement is i. Let B_(P), B_(Q) and B_(R) represent the magnetic field at the centre of square in the three cases, then

Two large metal sheets carry surface currents as shown in figure . The current through a strip of width dl is Kdl where K is a constant . Find the magnetic field at the points P,Q and R.

A wire of infinite length bent as shown in figure carries current l. What is the magnetic field at the point P ?

Two infinite plates shown in cross-section in figure carry lamda amperes of current out of thepage per unit width of plate. Find the magnetic field at points P and Q .

Only circular part of the wire shown in the figure has resistance sigma per unit length. The radii of the circles are r and R and /_POQ=alpha (in radian). If a potential difference V_(P)-V_(Q)=V is applied across the point P and Q , the magnetic field at point O is

An infinitely long cylinderical wire of radius R is carrying a current with current density j=alphar^(3) (where alpha is constant and r is the distance from the axis of the wire). If the magnetic fixed at r=(R)/(2) is B_(1) and at r=2R is B_(2) then the ratio (B_(2))/(B_(1)) is

The figure shows two circular rings of radii a and b (a gt b) made of a wire whose resistance is lamda per unit length All the three arrangemetns are placed in a uniform time varying magnetic field (dB)/(dt)= k , perpendicular to the plane of the loops. Determine the current induced in each case.

If pth,qth and rth terms of an A.P. are a, b, c respectively, then show that (i) a(q-r)+b(r-p)+c(p-q)=0

Two long wires a and b, carrying equal currents of 10*0A, are placed parallel to each other with a separation of 4*00 cm between them as shown in figure. Find the magnetic field B at each of the points P,Q and R.