Home
Class 12
PHYSICS
A set of n identical resistors, each of ...

A set of n identical resistors, each of resistance `R Omega`, when connected in series have an effective resistance `X Omega` and when the resistors are connected in parallel, their effective resistance is `Y Omega`. Find the relation between R, X and Y.

Text Solution

Verified by Experts

When n identical resistors are connected in series `X=R+R+R+ ..............+R=nR`
and r esistors are connected in parallel `(1)/(Y)=(1)/(R)+(1)/(R)+............+(1)/(R)=(1)/(R)=(n)/(R)rArrY=(R)/(n)`
`rArrX=nR=((R)/(Y))R=(R^(2))/(Y)therefore XY=R^(2)`
Promotional Banner

Similar Questions

Explore conceptually related problems

Two resistors when connected in series net resistance is 5 Omega and when they are connected in parallel net resistance is 1.2 Omega . What are these resistors ?

Two resistors when connected in series net resistance is 5 Omega and when they are connected in parallel net resistance is 1.2 Omega What are these resistors?

When two resistors of R value connected in parallel what is equivalent resistance '?

Identical resistance of resistance R are connected as in figure then find out net resistance between x and y.

When 10 resistors, each with resistance (1)/(10) Omega are connected in parallel , equivalent resistance will be ......

How can three resistor of resistances 2 Omega, 3 Omega and 6 Omega be connected to give a total resistance of 4 Omega

How can three resistor of resistances 2 Omega, 3 Omega and 6 Omega be connected to give a total resistance of 1 Omega ?

If five equal pieces of a resistance wire having 5 Omega resistance are connected in parallel, their equivalent resistance will be …………… .

Total power consumed when two resistors of resistance R are connected in series is P. How much power is consumed when they are connected in parallel ?

Resistances of three resistors are in the proportion connected in parallel, their effective resistance is 6 Omega . Then connect on if these resistance are connect in series so equivalent resistance will be .......