Assertion potential difference across, r...

Assertion potential difference across, resistor, capacitor and inductor each is `10 V`. Then, voltage function and current functions should be in phase.
Reason At this condition current in the circuit should be maximum.

If both Assertion and Reason are true and the Reason is correct explanation of the Assertion.

If both Assertion and Reason are true but Reason is not the correct explanation of Assertion

If Assertion is true, but the Reason is false.

If Assertion is false but the Reason is true.

Text Solution

Verified by Experts

The correct Answer is:

`V_L=V_CimpliesX_L=X_C`
So this resonance condition.

Topper's Solved these Questions

ALTERNATING CURRENT
DC PANDEY|Exercise Level - 1 Objective|30 Videos
ALTERNATING CURRENT
DC PANDEY|Exercise Level - 1 Subjective|6 Videos
ALTERNATING CURRENT
DC PANDEY|Exercise Exercise 28.2|2 Videos
ATOMS
DC PANDEY|Exercise MEDICAL ENTRANCES GALLERY|42 Videos

Similar Questions

Explore conceptually related problems

The potential difference across a 10H inductor as a function of time is shown in the figure. At t=0 current is zero. Then

In a series LCR circuit the voltage across an inductor, capacitor and resistor are 20 V, 20 V and 40 V respectively. The phase difference between the applied voltage and the current in the circuit is

Assertion : If potential difference across two points is zero, current between these two points should be zero. Reason : Current passing from a resistor I=V/R

Assertion: At resonance, power factor of series L-C-R circuit is zero. Reason: At resonance, current function and voltage functions are in same phase.

The potential difference across a 2-H inductor as a function of time is shown in Fig. At time t = 0, current is zero. Current at t = 1 s is

The potential difference across a 2 H inductor as a function of time is shown in figure. At time t=0 , current is zero Current t = 2 second is

The potential difference across a 2-H inductor as a function of time is shown in Fig. At time t = 0, current is zero. The variation of current versus time is

In a series LCR circuit, the voltages across an inductor, a capacitor and a resistor are 30 V, 30 V, 60 V respectively. What is the phase difference between the applied voltage and the current in the circuit ?

DC PANDEY-ALTERNATING CURRENT-Level 1 Assertion-Reason

Assertion: In an AC circuit, potential difference across the capacitor...
Text Solution
|
Assertion : In series L-C-R circuit, voltage will lead the current fun...
Text Solution
|
Assertion : Resonance frequency will decrease in L-C-R series circuit ...
Text Solution
|
Assertion : Average value of current in the given graph is 3 A. R...
Text Solution
|
Assertion : In series L-C-R circuit, if a ferromagnetic rod is inserte...
Text Solution
|
Assertion potential difference across, resistor, capacitor and inducto...
Text Solution
|
Assertion At some given instant I1 and I2 both are 2A each. Then, I at...
Text Solution
|
Assertion : Peak value of current in AC through a resistance of 10 Ome...
Text Solution
|
Assertion : An inductor coil normally produces more current with DC so...
Text Solution
|
Assertion : In an L-R series circuit in AC, current in the circuit wil...
Text Solution
|
Assertion : In series L-C-R, AC circuit, current and voltage are in sa...
Text Solution
|

Assertion potential difference across, resistor, capacitor and inductor each is `10 V`. Then, voltage function and current functions should be in phase. Reason At this condition current in the circuit should be maximum.

Text Solution

Topper's Solved these Questions

Similar Questions

DC PANDEY-ALTERNATING CURRENT-Level 1 Assertion-Reason

Assertion potential difference across, resistor, capacitor and inductor each is `10 V`. Then, voltage function and current functions should be in phase.
Reason At this condition current in the circuit should be maximum.