Advertisements
Advertisements
प्रश्न
A long wire carries a current of 4.00 A. Find the energy stored in the magnetic field inside a volume of 1.00 mm3 at a distance of 10.0 cm from the wire.
Advertisements
उत्तर
Current flowing through the wire, i = 4.00 A
Volume of the region, V = 1 mm3
Distance of the region from the wire, d = 10 cm = 0.1 m
Magnetic field due to the current-carrying straight wire, \[B =\frac{\mu_0 i}{2\pi r}\]
The magnetic energy stored is given by
\[U = \frac{B^2 V}{2 \mu_0} = \frac{\mu_0^2 i^2}{4 \pi^2 r^2} \times \frac{1}{2 \mu_0} \times V\]
\[U = \frac{\mu_0 i^2}{4 \pi^2 r^2} \times \frac{1}{2} \times V\]
\[U = \frac{(4\pi \times {10}^{- 7} ) \times (4 )^2 \times (1 \times {10}^{- 9} )}{(4 \pi^2 \times {10}^{- 2} ) \times 2}\]
\[U = 2 . 55 \times {10}^{- 14} J\]
APPEARS IN
संबंधित प्रश्न
In a given coil of self-inductance of 5 mH, current changes from 4 A to 1 A in 30 ms. Calculate the emf induced in the coil.
Derive the expression for the self-inductance of a long solenoid of cross sectional area A and length l, having n turns per unit length.
Define self inductance. Write its S.I. units.
An inductor of inductance 5.0 H, having a negligible resistance, is connected in series with a 100 Ω resistor and a battery of emf 2.0 V. Find the potential difference across the resistor 20 ms after the circuit is switched on.
Answer the following question.
When an inductor is connected to a 200 V dc voltage, a current at 1A flows through it. When the same inductor is connected to a 200 V, 50 Hz ac source, only 0.5 A current flows. Explain, why? Also, calculate the self-inductance of the inductor.
Choose the correct option
A current through a coil of self-inductance 10 mH increases from 0 to 1 A in 0.1 s. What is the induced emf in the coil?
The coefficient of self-inductance of a solenoid is 0.20 mH. If a core of soft iron of relative permeability 900 is inserted, then the coefficient of self-inductance will become nearly ______
The magnetic potential energy stored in a certain inductor is 15 mJ, when the current in the inductor is 40 mA. This inductor is of inductance ____________.
An e.m.f. of 10 volt is produced by a self inductance when the current changes at a steady rate from 6 A to 4 A in 1 millisecond. The value of self inductance is ____________.
Two coils of wire A and B are placed mutually perpendicular as shown. When current is changed in any one coil.
The self-inductance associated with a coil is independent of ______.
What is the unit of self-inductance of a coil?
The inductance of a solenoid L having diameter d. Let n be the number of turns per unit length. The inductance per unit length near the middle of a solenoid is ______.
(Assume that, l = current passes through the turns, µ0 = Permeability of vacuum)
Calculate the self-inductance of a coil using the following data obtained when an AC source of frequency `(200/pi)` Hz and a DC source are applied across the coil.
| AC Source | ||
| S.No. | V (volts) | I (A) |
| 1 | 3.0 | 0.5 |
| 2 | 6.0 | 1.0 |
| 3 | 9.0 | 1.5 |
| DC Source | ||
| S.No. | V (volts) | I (A) |
| 1 | 4.0 | 1.0 |
| 2 | 6.0 | 1.5 |
| 3 | 8.0 | 2.0 |
A current of 1A flows through a coil when it is connected across a DC battery of 100V. If the DC battery is replaced by an AC source of 100 V and angular frequency of 100 rad s-1, the current reduces to 0.5 A. Find
- the impedance of the circuit.
- self-inductance of coil.
- Phase difference between the voltage and the current.
State the factors on which the magnetic coupling coefficient of two coils depends.
The current in a coil changes from 50A to 10A in 0.1 second. The self inductance of the coil is 20H. The induced e.m.f. in the coil is ______.
