Advertisements
Advertisements
प्रश्न
A capacitor of capacitance 10 μF is connected to an oscillator with output voltage ε = (10 V) sin ωt. Find the peak currents in the circuit for ω = 10 s−1, 100 s−1, 500 s−1 and 1000 s−1.
Advertisements
उत्तर
Capacitance of the capacitor, C = 10 μF = 10 × 10−6 F = 10−5 F
Output voltage of the oscillator, ε = (10 V)sinωt
On comparing the output voltage of the oscillator with
` ε = ε_0 `, we get:
Peak voltage ε0 = 10 V
For a capacitive circuit,
Reactance, `X_e=1/(omegaC)`
Here, `omega` = angular frequency
C = capacitor of capacitance
Peak current, `I_0 = ε_0 /X_e`
(a) At ω = 10 s−1:
Peak current,
I0 = `ε_0/X_e`
= `ε_0/(1/omegaC)`
= `10/(1//10xx10^-5 )A`
= 1 × 10−3 A
(b) At ω = 100 s−1:
Peak current, I0 = `ε_0 /(1//omegaC)`
⇒` I_0 = 10/(1/100xx10^-5)`
⇒ `I_0 = 10/(1//100xx10^-5)`
⇒ `I_0 = 10/10^3 = 1xx10^-2 A`
= 0.01 A
(c) At ω = 500 s−1:
Peak current, I0 = `ε_0/(1//omegaC)`
`I_0 = epsilon_0/(1//omegaC)`
`⇒ I_0 = 10/(1//5xx10^-5)`
= `5xx10^-2 A =0.05 A`
(d) At ω = 1000 s−1:
Peak current, I0 = `epsilon_0/(1/omegaC)`
⇒ `I_0 = 10/(1//1000xx10^-5)`
⇒ `I_0 =10xx1000xx10^-5`
⇒ `I_0= 10^-1 A = 0.1 A`
APPEARS IN
संबंधित प्रश्न
In a series LCR circuit connected to an ac source of variable frequency and voltage ν = vm sin ωt, draw a plot showing the variation of current (I) with angular frequency (ω) for two different values of resistance R1 and R2 (R1 > R2). Write the condition under which the phenomenon of resonance occurs. For which value of the resistance out of the two curves, a sharper resonance is produced? Define Q-factor of the circuit and give its significance.
The voltage and current in a series AC circuit are given by V = V0cos ωt and i = i0 sin ωt. What is the power dissipated in the circuit?
Two alternating currents are given by `i_1 = i_0 sin wt and i_2 = i_0 sin (wt + pi/3)` Will the rms values of the currents be equal or different?
An alternating current is given by i = i1 cos ωt + i2 sin ωt. The rms current is given by
An alternating current of peak value 14 A is used to heat a metal wire. To produce the same heating effect, a constant current i can be used, where i is
A constant current of 2.8 A exists in a resistor. The rms current is
Find the time required for a 50 Hz alternating current to change its value from zero to the rms value.
The household supply of electricity is at 220 V (rms value) and 50 Hz. Find the peak voltage and the least possible time in which the voltage can change from the rms value to zero.
An electric bulb is designed to operate at 12 volts DC. If this bulb is connected to an AC source and gives normal brightness, what would be the peak voltage of the source?
The dielectric strength of air is 3.0 × 106 V/m. A parallel-plate air-capacitor has area 20 cm2 and plate separation 0.10 mm. Find the maximum rms voltage of an AC source that can be safely connected to this capacitor.
A resistor of resistance 100 Ω is connected to an AC source ε = (12 V) sin (250 π s−1)t. Find the energy dissipated as heat during t = 0 to t = 1.0 ms.
The peak voltage of an ac supply is 300 V. What is the rms voltage?
The rms value of current in an ac circuit is 10 A. What is the peak current?
Do the same with the replacement of the earlier transformer by a 40,000-220 V step-down transformer (Neglect, as before, leakage losses though this may not be a good assumption any longer because of the very high voltage transmission involved). Hence, explain why high voltage transmission is preferred?
Phase diffn between voltage and current in a capacitor in A.C Circuit is.
In a transformer Np = 500, Ns = 5000. Input voltage is 20 volt and frequency is 50 HZ. Then in the output, we have,
RMS value of an alternating current flowing in a circuit is 5A. Calculate its peak value.
