Advertisements
Advertisements
प्रश्न
A coil of resistance 40 Ω is connected across a 4.0 V battery. 0.10 s after the battery is connected, the current in the coil is 63 mA. Find the inductance of the coil.
Advertisements
उत्तर
Given:-
Resistance, R = 40 Ω
Emf of the battery, E = 4 V
Now,
The steady-state current in the LR circuit is given by
\[i_0 = \frac{4}{40} = 0 . 1 A\]
At time, t = 0.1 s, the value of current i is 63 mA = 0.063 A
The current at time t is given by
i = i0(1 − e−t/τ)
⇒ 0.063 = 0.1(1 − e−tR/L)
⇒ 63 =100(1 − e−4/L)
⇒ 63 = 100(1 − e−4/L)
⇒ 1 − 0.63 = e−4/L
⇒ e−4/L = 0.37
\[\Rightarrow- \frac{4}{L}=\ln(0.37)\]
\[\Rightarrow L=\frac{- 4}{- 0 . 994}\]
= 4.024 H
= 4 H
APPEARS IN
संबंधित प्रश्न
In a series LCR circuit connected to an a.c. source of voltage v = vmsinωt, use phasor diagram to derive an expression for the current in the circuit. Hence, obtain the expression for the power dissipated in the circuit. Show that power dissipated at resonance is maximum
A source of ac voltage v = v0 sin ωt, is connected across a pure inductor of inductance L. Derive the expressions for the instantaneous current in the circuit. Show that average power dissipated in the circuit is zero.
An LR circuit contains an inductor of 500 mH, a resistor of 25.0 Ω and an emf of 5.00 V in series. Find the potential difference across the resistor at t = (a) 20.0 ms, (b) 100 ms and (c) 1.00 s.
A solenoid having inductance 4.0 H and resistance 10 Ω is connected to a 4.0 V battery at t = 0. Find (a) the time constant, (b) the time elapsed before the current reaches 0.63 of its steady-state value, (c) the power delivered by the battery at this instant and (d) the power dissipated in Joule heating at this instant.
(i) An a.c. source of emf ε = 200 sin omegat is connected to a resistor of 50 Ω . calculate :
(1) Average current (`"I"_("avg")`)
(2) Root mean square (rms) value of emf
(ii) State any two characteristics of resonance in an LCR series circuit.
Answer the following question.
What is the phase difference between the voltages across the inductor and the capacitor at resonance in the LCR circuit?
Derive an expression for the average power dissipated in a series LCR circuit.
In a series LCR circuit supplied with AC, ______.
In series combination of R, L and C with an A.C. source at resonance, if R = 20 ohm, then impedence Z of the combination is ______.
At resonant frequency the current amplitude in series LCR circuit is ______.
The resonant frequency of a RF oscillator is 1 MHz and its bandwidth is 10 kHz. The quality factor will be :
In series LCR AC-circuit, the phase angle between current and voltage is
In an LCR circuit having L = 8 henery. C = 0.5 µF and R = 100 ohm in series, the resonance frequency in radian/sec is
Which of the following components of an LCR circuit, with a.c. supply, dissipates energy?
Which of the following combinations should be selected for better tuning of an LCR circuit used for communication?
As the frequency of an ac circuit increases, the current first increases and then decreases. What combination of circuit elements is most likely to comprise the circuit?
- Inductor and capacitor.
- Resistor and inductor.
- Resistor and capacitor.
- Resistor, inductor and capacitor.
Draw the phasor diagram for a series LRC circuit connected to an AC source.
When an alternating voltage of 220V is applied across device X, a current of 0.25A flows which lags behind the applied voltage in phase by π/2 radian. If the same voltage is applied across another device Y, the same current flows but now it is in phase with the applied voltage.
- Name the devices X and Y.
- Calculate the current flowing in the circuit when the same voltage is applied across the series combination of X and Y.
Three students, X, Y and Z performed an experiment for studying the variation of ac with frequency in a series LCR circuit and obtained the graphs as shown below. They all used
- an AC source of the same emf and
- inductance of the same value.
- Who used minimum resistance?
- In which case will the quality Q factor be maximum?
- What did the students conclude about the nature of impedance at resonant frequency (f0)?
- An ideal capacitor is connected across 220 V, 50 Hz, and 220 V, 100 Hz supplies. Find the ratio of current flowing through it in the two cases.
