In a moving coil galvanometer, a coil of area `pi cm^(2)` and `10` windings is used. Magnetic field strength applied on the coil is `1` tesla and torsional stiffness of the torsional spring `6xx10^(-5)N.M//"rad"`. A needle is welded with the coil. Due to limited space, the coil (or needle) can rotate only by `90^(@)`. For marking. the `90^(@)` space is equaly

A coil of area 5cm^(2) and having 20 turns is placed in a uniform magnetic field of 10^(3) gauss. The normal to the plane of the coil makes an angle of 60^(@) with the magnetic field. The flux in Maxwell through the coil is:

A coil of area 5cm^(2) and having 20 turns is placed in a uniform magnetic field of 10^(3) gauss. The normal to the plane of the coil makes an angle of 60^(@) with the magnetic field. The flux in Maxwell through the coil is:

The coil of a moving coil galvanometer has an effective area of 5xx10^(-2)m^(2) . It is suspended in a magnetic field of 2xx10^(-2) Wbm^(-2) .If the torsional constant of the senpension fibre is 4xx10^(-9) Nmdeg^(-1) . Then find its current sensitivity in degree per microampere

A 800 turn coil of effective area 0.05 m^(2) is kept perpendicular to a magnetic field 5xx10^(-5) T. When the plane of the coil is rotated by 90^(@) around any of its coplanar axis in 0.1 s, the emf induced in the coil will be:

If in a coil rate of change of area is 5m^(2)//millisecond and current become 1 amp from 2 amp in 2xx10^(-3) sec. magnitude of field id 1 teslsa then self-inductance of the coil is

The area of the coil in a moving coil galvanometer is 16 cm^(2) and has 20 turns. The magnetic induction is 0.2T and the couple per unit twist of the suspended wire is 10^(-6) Nm per degree. If the deflection is 45° calculate the current passing through it.

A moving coil galvanometer consists of a coil of N turns are area A suspended by a thin phosphor bronze strip in radial magnetic field B. The moment of inertia of the coil about the axis of rotation is l and c is the torsional constant of the phosphor bronze strip. When a current i is passed through the coil, it deffects through an angle theta When a charge Q is almost instantly through the coil the angular speed omega acquired by the coil is

A moving coil galvanometer consists of a coil of N turns are area A suspended by a thin phosphor bronze strip in radial magnetic field B. The moment of inertia of the coil about the axis of rotation is l and c is the torsional constant of the phosphor bronze strip. When a current i is passed through the coil, it deffects through an angle theta Magnitude of the torque experienced by the coil is independent of

A moving coil galvanometer consists of a coil of N turns are area A suspended by a thin phosphor bronze strip in radial magnetic field B. The moment of inertia of the coil about the axis of rotation is l and c is the torsional constant of the phosphor bronze strip. When a current i is passed through the coil, it deffects through an angle theta The current sensitivity of the galvanometer is increases if

A rectangular coil of area 5.0xx10^-4m^2 and 60 turns is pivoted about one of its vertical sides. The coil is in a radial horizontal magnetic field of 9xx10^-3T . What is the torsional constant of the spring connected to the coil if a current of 0.20mA produces an angular deflection of 18^@ ?