A straight wire and a circular loop both...

A straight wire and a circular loop both carrying currents are in the same vertical plane. There is no contact between the two at the point A. If `B_(1)` and `B_(2)` are magnetic fields due to `i_(1)andi_(2)` respectively at the point C, the centre of the loop, then the total field at C is:

Zero

`(B_(1)-B_(2))or(B_(2)-B_(1))`

`(B_(1)+B_(2))` perpendicular to the plane of the loop towards us

`(B_(1)+B_(2))` perpendicular to the plane of the loop away from us

Text Solution

Verified by Experts

The correct Answer is:

Similar Questions

Explore conceptually related problems

A circular wire ABC and a straight conductor ADC are carrying current i and are kept in the magnetic field B then considering points A and C

A circular loop of radius 9.7 cm carries a current 2.3 A. Obtain the magnitude of the magnetic field at the centre of the loop .

A circular loop of radius a, carrying a current I, is placed in a tow dimensional magnetic field. The centre of the loop coincides with the centre of the filed The strenght of the magnetic field at the pariphery of the loop is B. find the magnetic force on the wire.

The dipole moment of a circular loop carrying a current I, is m and the magnetic field at the centre of the loop is B_(1) . When the dipole moment is doubled by keeping the current constant, the magnetic field at the centre of the loop is B_(2) . The ratio (B_(1))/(B_(2)) is:

A circular loop of area 1cm^2 , carrying a current of 10 A , is placed in a magnetic field of 0.1 T perpendicular to the plane of the loop. The torque on the loop due to the magnetic field is

A non - planar loop of conducting wire carrying a current I is placed as shown in the figure . Each of the straighrt sections of the loop is of the length 2a . The magnetic field due to this loop at the point P(a, 0 ,a) points in the direction

Shown in the figure is a rectangular loop of conductor carrying a current i. The length and breath of the loop are respectively a and b. The magnetic field at the centre of loop is -

Two parallel wires carrying current I and 2I in same direction have magnetic field B at the midpoint between them. If the current 2I is switched off, the magnetic field at that point will be

A straight wire and a circular loop both carrying currents are in the same vertical plane. There is no contact between the two at the point A. If `B_(1)` and `B_(2)` are magnetic fields due to `i_(1)andi_(2)` respectively at the point C, the centre of the loop, then the total field at C is:

Text Solution

Similar Questions

Recommended Questions