In the given circuit
In the given circuit, the electromotive force of equivalent cell between points M and N is
02
Dec
In the given circuit, the electromotive force of equivalent cell between points M and N is In the given circuit the electromotive force of equivalent cell between points M and N is December 2, 2020 Category: Arihant Physics by D.C Pandey , Chapter 3 - Current Electricity , Volume 2 ,
In the given circuit, the equivalent resistance between points M and N is :
02
Dec
In the given circuit, the equivalent resistance between points M and N is : In the given circuit The equivalent resistance between points M and N is: December 2, 2020 Category: Arihant Physics by D.C Pandey , Chapter 3 - Current Electricity , Volume 2 ,
In the given circuit, the equivalent resistance between points M and N is:
02
Dec
In the given circuit, the equivalent resistance between points M and N is: In the given circuit The equivalent resistance between points M and N is: December 2, 2020 Category: Arihant Physics by D.C Pandey , Chapter 3 - Current Electricity , Volume 2 ,
In the given circuit, the potential of the point E is
01
Dec
In the given circuit, the potential of the point E is In the given circuit the potential of the point E is December 1, 2020 Category: Cengage NEET by C.P Singh , Chapter 3 - Current Electricity , Part 2 ,
In the given circuit, a charge of +80 μC is given to the upper plate of the 4 μF capacitor. Then in the steady state, the charge on the upper plate of the 3 μF capacitor is
30
Nov
In the given circuit, a charge of +80 μC is given to the upper plate of the 4 μF capacitor. Then in the steady state, the charge on the upper plate of the 3 μF capacitor is a charge of +80 μC is given to the upper plate of the 4 μF capacitor. Then in [...]
When an ammeter of negligible internal resistance is inserted in series with circuit it reads 1A When the voltmeter of very large resistance is connected across X it reads 1V. When the point A and B are shorted by a conducting wire, the voltmeter measures 10 V across the battery. The internal resistance of the battery is equal to
15
Nov
When an ammeter of negligible internal resistance is inserted in series with circuit it reads 1A When the voltmeter of very large resistance is connected across X it reads 1V. When the point A and B are shorted by a conducting wire, the voltmeter measures 10 V across the battery. The internal resistance of the [...]
In the given circuit, the reading of ideal voltmeter is E/2. The internal resistance of the battery is
15
Nov
In the given circuit, the reading of ideal voltmeter is E/2. The internal resistance of the battery is In the given circuit the reading of ideal voltmeter is E/2. The internal resistance of the battery is November 15, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
In the given circuit , R1≠R2 and the reading of the voltmeter is the same, irrespective of whether the switch S is open or closed. Then, which of the following is correct?
13
Nov
In the given circuit , R1≠R2 and the reading of the voltmeter is the same, irrespective of whether the switch S is open or closed. Then, which of the following is correct? In the given circuit irrespective of whether the switch S is open or closed. Then R1≠R2 and the reading of the voltmeter is [...]
In the given circuit , the voltmeter and the electric cell are ideal . Find the reading of the voltmeter
13
Nov
In the given circuit , the voltmeter and the electric cell are ideal . Find the reading of the voltmeter In the given circuit the voltmeter and the electric cell are ideal . Find the reading of the voltmeter November 13, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
In the given circuit, each reistance is r = 18.75 ohm. The current ( in A ) in the resistance connected across A and B is ‘ ….. ‘A.
12
Nov
In the given circuit, each reistance is r = 18.75 ohm. The current ( in A ) in the resistance connected across A and B is ‘ ….. ‘A. each reistance is r = 18.75 ohm. The current ( in A ) in the resistance connected across A and B is ' ..... 'A. In [...]