A circular metallic ring has a radius r. A battery of V volts is connected across the diameter of the ring as shown in the adjoining figure. Calculate the magnetic field at the centre of the coil.

A cube made of wire of equal length is connected to a battery as shown in figure.The magnetic field at the centre of the cube is

A battary is connected between two points A and B on the circumference of a uniform conducting ring of radius r and resistance R as shown in Fig. One of the arcs AB of the ring subtends angle theta at the centre. Show that that the magnetic field at the centre of the coil is zero and independent theta .

Two capacitors of capacitances 4muF and 5muF are connected across a battery of 12 volts as shown in the adjoining figure (i). Calculate the total charge drawn from the battery.

A current I enters a uniform circular coil of radius R, branches into two parts and then recombines as shown in the circuit diagram. The resultant magnetic field at the centre of the coil is :

A ring of the radius R is placed in the y - z plane and it carries a current i. The conducting wires which are used to supply the current to the ring can be assumed to be vary long and are placed as shown in the figure. The magnitude of the magnetic field at the centre of the ring A is

Magnetic field in a space is given as B = -(B_(o)x)/(R )hat(k) . A circular ring of radius R having current I lies in the space with centre at origin as shown in the figure. Find the magnitude of net magnetic force acting on the circular ring due to the magnetic field.

A d.c. battery of V volt is connected to a series combination of a resistor R and an ideal diode D as shown in the figure below. The potential difference across R will be

A coil A of radius R and number of turns n carries a current i and it is placed in a horizontal plane. A small conducting ring P of radius r (r lt lt R) is placed at a height y_(0) above the centre of the coil A as shown in figure-5.38. Calculate the induced EMF in the ring when the ring in allowed to fall freely. Express the induced EMF as a function of instantaneous speed of the falling ring and its height above the center of the coil A.