wiz-icon
MyQuestionIcon
MyQuestionIcon
1
You visited us 1 times! Enjoying our articles? Unlock Full Access!
Question

In a series resonant LCR circuit, the voltage across R is 100V and R=1kΩ with C=2μF. The resonant frequency ω is 200rads-1. At resonance the voltage across L is:


A

40V

No worries! We‘ve got your back. Try BYJU‘S free classes today!
B

250V

Right on! Give the BNAT exam to get a 100% scholarship for BYJUS courses
C

4×10-3V

No worries! We‘ve got your back. Try BYJU‘S free classes today!
D

2.5×10-2V

No worries! We‘ve got your back. Try BYJU‘S free classes today!
Open in App
Solution

The correct option is B

250V


Step 1: Given data

Voltage across the resistor,V=100V

Resistance,R=1kΩ

Capacitance, C=2μF

Resonant frequency, ω=200rads-1

Step 2: Formula used

We know the current is given as,

I=EZ

where E is the resultant emf and Z is the impedance given by the equations,

E=VR2+VL-VC2Z=R2+XL-XC2

Where VR,VL,VC are voltages across resistance, inductor and capacitor respectively and R,XL,XC are resistance, inductive reactance and capacitive reactance respectively.

Step 3: Calculating the inductive reactance

We know, at resonance

XL=XC and

VL=VC

Here,

XL=XC=1CωXL=12×200×10-6XL=2500(1)

Therefore,

Z=R and

E=VR

Step 4: Calculating the current

Current,

I=VRRI=100103I=0.1A(2)

Step 5: Calculating the voltage across the inductor

We know,

VL=XL×IVL=2500×0.1(from(1)and(2)VL=250V

The voltage across L at resonance is equal to 250V

Hence, option (B) is the correct option.


flag
Suggest Corrections
thumbs-up
1
Join BYJU'S Learning Program
similar_icon
Related Videos
thumbnail
lock
PN Junction
PHYSICS
Watch in App
Join BYJU'S Learning Program
CrossIcon