Advertisements
Advertisements
рдкреНрд░рд╢реНрди
An inductor of `5/pi` H, a capacitor of `50/pi` µF and a resistor of 400 тДж are connected in series across an ac voltage v = 140 sin(100 πt) V. Calculate:
- impedance of the circuit, and
- rms value of current that flows in the circuit. (Take `sqrt 2` = 1.4).
рд╕рдВрдЦреНрдпрд╛рддреНрдордХ
Advertisements
рдЙрддреНрддрд░
Given: L = `5/pi` H
C = `50/pi` µF = `50/pi xx 10^-6` F
R = 400 Ω
V = 140 sin(100 πt)
From the voltage equation:
V0 = 140 V and
ω = 100 π rad/s
Inductive Reactance (XL) = ωL
= `100 pi xx 5/pi`
= 500 Ω
Capacitive Reactance (XC) = `1/(omega C)`
= `1/(100 pi xx 50/pi xx 10^-6)`
= `1/(5000 xx 10^-6)`
= `10^6/5000`
= 200 Ω
I. Impedance (Z) = `sqrt(400^2 + (500 - 200)^2)`
= `sqrt(160000 + 90000)`
= `sqrt 250000`
= 500 Ω
II. RMS Current (Irms):
Peak current (I0) = `V_0/Z`
= `140/500`
= 0.28 A
Irms = `I_0/sqrt 2`
= `0.28/1.4`
= 0.2 A
shaalaa.com
рдпрд╛ рдкреНрд░рд╢реНрдирд╛рдд рдХрд┐рдВрд╡рд╛ рдЙрддреНрддрд░рд╛рдд рдХрд╛рд╣реА рддреНрд░реБрдЯреА рдЖрд╣реЗ рдХрд╛?
2025-2026 (March) 55/4/1
