In the simple `L-R` circuit, can the emf induced across the inductor ever be greater than the emf of the battery used to produce the current?

Can the potential difference across a battery be greater than its emf?

Can the peak voltage across the inductor be greater than the peak voltage of the source in an LCR circuit?

In the circuit shown in fig the voltage across the 2Omega resistor is 12V. What is the emf of the battery and the current thorugh the 6Oemga resistor?

In the circuit shown the ammeter 'A' reads 2A . XY is a circuit which can either be a resistance of a battery. In the direction of the current there will always be a potential drop across the resistance. Reagarding battery you have to remember that the potential difference across its terminals can be more than its emf or less depending upon whether the battery is delivering the current, or is being charged in the circuit Assuming XY to be a battery with 2 Omega internal resistance which is being charged, its emf is:

In the circuit shown the ammeter 'A' reads 2A . XY is a circuit which can either be a resistance of a battery. In the direction of the current there will always be a potential drop across the resistance. Reagarding battery you have to remember that the potential difference across its terminals can be more than its emf or less depending upon whether the battery is delivering the current, or is being charged in the circuit The potential difference as you move from Y to X while considering it to be a battery is :

A battery has an emf E and internal resistance r. A variable resistance R is connected across the terminals of the battery. Find the value of R such that (a) the current in the circuit id maximum (b) the potential difference across the terminals is maximum.

A reversible galvanic cell is connected to an external battery. If the EMF of the battery is less than EMF of the galvanic cell, current

In a simple circuit with resistance, phase between AC emf and AC current is