Advertisements
Advertisements
प्रश्न
Two coils C1 and C2 are placed close to each other. The magnetic flux Φ2 linked with coil C2 varies with the current I1 flowing in coil C1 as shown in the figure. Find
- The mutual inductance of the arrangement, and
- The rate of change of current `((dI_1)/(dt))` will induce an emf of 100V in coil C2.
उत्तर
- Φ2 = magnetic flux linked with coil C2.
I1 = current passes in coil C1.
Lets no. of turns in coil C1 be N1.
No. of turns in coil C2 be N2.
According to Faraday's law,
`E_"ind" = (dphi)/(dt)`
`E_{21} = -N_2(dphi_2)/(dt)`
`E_21 = -N_2d/dt(vecB . vecA)`
`N_2phi_2 prop I_1`
`N_2phi_2 = M_21I_1`
M21 is called mutual inductance.
`M_21 = (N_2phi_2)/I_1` - Induced emf (E) = `-L(dI)/(dt)`
`(dI)/(dt) = E/(-L)`
`(dI_1)/(dt) = -100(1/L)`
Here, L is the inductance of the coil C2.
APPEARS IN
संबंधित प्रश्न
A jet plane is travelling towards west at a speed of 1800 km/h. What is the voltage difference developed between the ends of the wing having a span of 25 m, if the Earth’s magnetic field at the location has a magnitude of 5 × 10−4 T and the dip angle is 30°.
The closed loop (PQRS) of wire is moved into a uniform magnetic field at right angles to the plane of the paper as shown in the figure. Predict the direction of the induced current in the loop.
A rectangular metallic loop of length l and width b is placed coplanarly with a long wire carrying a current i (figure). The loop is moved perpendicular to the wire with a speed vin the plane containing the wire and the loop. Calculate the emf induced in the loop when the rear end of the loop is at a distance a from the wire. solve by using Faraday's law for the flux through the loop and also by replacing different segments with equivalent batteries.
A 0⋅5 m long solenoid of 10 turns/cm has the area of cross-section 1 cm2. Calculate the voltage induced across its ends if the current in the solenoid is changed from 1 A to A in 0⋅1 s.
Faraday’s laws are consequence of the conservation of ______.
The average e.m.f induced in a coil in which current change from 0.2 ampere to 0.4 ampere in· 0.1 sec is 1 volt, the self-inductance of the coil is
A magnetic field B is confined to a region r ≤ a and points out of the paper (the z-axis), r = 0 being the centre of the circular region. A charged ring (charge = Q) of radius b, b > a and mass m lies in the x-y plane with its centre at the origin. The ring is free to rotate and is at rest. The magnetic field is brought to zero in time ∆t. Find the angular velocity ω of the ring after the field vanishes.
The self induced emf of a coil is 25 volts. When the current in it is changed at uniform rate from 10 A to 25 A in 1 s, the change in the energy of the inductance is ______.
How much charge in terms of Faraday is required for the reduction of 1 mol of Cu2+ to Cu?
