Home
Class 10
PHYSICS
Calculate the equivalent resistance when...

Calculate the equivalent resistance when two resistances of 3 ohms and 6 ohms are connected in parallel.

Text Solution

AI Generated Solution

To calculate the equivalent resistance when two resistances of 3 ohms and 6 ohms are connected in parallel, we will follow these steps: ### Step-by-Step Solution: 1. **Understand the Formula for Parallel Resistors**: When resistors are connected in parallel, the formula to find the equivalent resistance (R_eq) is: \[ \frac{1}{R_{eq}} = \frac{1}{R_1} + \frac{1}{R_2} ...
Promotional Banner

Similar Questions

Explore conceptually related problems

The resultant resistance of n wires each of resistance r ohms is R ,when they are connected in parallel.When these n resistances are connected in series,the resultant resistance will be

The resultant resistance of n wires each of resistance r ohms is R, when they are connected in parallel. When these n resistances are connected in series, the resultant resistance will be

Two resistance R_1 and R_2 when connected in series produce equivalent resistance equal to x. and when the same two resistance are connected in parallel then equivalent resistance becomes y. Calculate the product of magnitudes of R_1 and R_2 in terms of x and y.

Two resistors are connected (a) in series (b) in parallel The equivalent resistance in the two cases are 9 ohm and 2ohm respectively. Then the resistances of the component resistor are

When resistors 1 and 2 are connected in series, the equivalent resistance is 20.0 Omega. When they are connected in parallel, the equivalent resistance is 3.75 Omega. What are (a) the smaller resistance and (b) the larger resistance of these two resistors?

In a potentiometer experiment, the balancing length with a cell is 560cm. When an external resistance of 10ohms is connected in parallel to the cell the balancing length changs by 60cm. The internal resistance of the cell in ohm is

Calculate equivalent resistance of two resistors R_(1) and R_(2) in parallel where, R_(1) = (6+-0.2) ohm and R_2 = (3+-0.1)ohm

A silver voltameter of resistance 2 ohm and a 3 ohm resistor are connected in series across a cell. If a resistance of 2 ohm is connected in parallel with the voltameter, then the rate of deposition of silver