A resistor R is connected to a cell of e...

A resistor R is connected to a cell of emf e and internal resistance r. Potential difference across the resistor R is found to be V. State the relation between e, V, R and r.

Text Solution

AI Generated Solution

To find the relation between the EMF of the cell (e), the potential difference across the resistor (V), the resistance of the resistor (R), and the internal resistance of the cell (r), we can follow these steps: ### Step-by-Step Solution: 1. **Understanding the Circuit**: - We have a cell with an EMF (e) and an internal resistance (r). - A resistor (R) is connected to this cell. - The potential difference across the resistor is denoted as (V). ...

Similar Questions

Explore conceptually related problems

A capacitor is conneted to a cell emf E having some internal resistance r . The potential difference across the

A cell of e.m.f E and internal resitance r ,is connected to an external resistance R. the variation of potential difference V across the resistance R as function of R as shown in the figure, is the best represented by curve

If E is the emf of a cell of internal resistance r and external resistance R, then potential difference across R is given as

A resistance R is connected across a cell of emf epsilon and internal resistance r. A potentiometer now measures the potential difference between the terminals of the cell is V. Write the expression for r in terms of epsilon , V and R .

Two cells of emf E each and internal resistance r_(1) and r_(2) are connected in series across a load resistance R. If potential difference across the first cell is zero, then find the relation between R, r_(1) and r_(2)

The figure shows a network in which the cell is deal and it has an emf E. The potential difference across the resistance 2R is

(a) A voltmeter with resistance R_v is connected across the terminals of a battery of emf E and internal resistance r . Find the potential difference measured by the voltmeter. (b) If E = 7.50 V and r = 0.45 Omega , find the minimum value of the voltmeter resistance R_v so that the voltmeter reading is within 1.0% of the emf of the battery. (c) Explain why your answer in part (b) represents a minimum value.

Two cells of the same e.mf. e but different internal resistances r_(1) and r_(2) are connected in series with an external resistance 'R'. The potential drop across the first cell is found to be zero. The external resistance Ris

A resistor R is conneted to a parallel combination of two identical batteries each with emf E and an internal resistance r. The potential drop across the resistance R is.

A resistor R is connected to a cell of emf e and internal resistance r. Potential difference across the resistor R is found to be V. State the relation between e, V, R and r.

Text Solution

Similar Questions

Recommended Questions