Obtain an expression for the equivalent ...

Obtain an expression for the equivalent emf and internal resistance of two cells connected in parallel.

Answer

Step by step text solution for Obtain an expression for the equivalent emf and internal resistance of two cells connected in parallel. by PHYSICS experts to help you in doubts & scoring excellent marks in Class 12 exams.

Topper's Solved these Questions

SUPER MODEL QUESTION PAPER -1
SUBHASH PUBLICATION|Exercise PART -C|7 Videos
SUPER MODEL QUESTION PAPER (WITH ANSWERS)
SUBHASH PUBLICATION|Exercise Part - D|15 Videos
SUPER MODEL QUESTION PAPER -2
SUBHASH PUBLICATION|Exercise PART -D|11 Videos

Similar Questions

Explore conceptually related problems

Derive the expression for equivalent emf and equivalent internal resistance of two cells connected in series.

Obtain the expression for the effective emf and the effective internal resistance of two cells connected in parallel such that the currents are flowing in the same direction.

Define internal resistance of a cell.

Obtained and expression for the equivalent capacitance when three capacitors are connected in parallel.

Obtain an expression for equivalent resistance of two resistors connected in a series combination.

a] Obtain an expression for the equivalent resistance of three resistors connected in series. Also write the expressions for current and voltage in the circuit. b] Mention any two advantages of connecting resistors in series.

Obtain an expression for equivalent resistance of two resistors connected in parallel.

Give the expression for equivalent resistance of two resistors connected in parallel.

If E_(1) , E_(2),E_(3) ... E_(n) represent emfs of a number of cells of internal resistances r_(1) , r_(2) , ... r_(n) then mention their equivalent emf and internal resistance when these are connected in series.

SUBHASH PUBLICATION-SUPER MODEL QUESTION PAPER -1-PART -D

Obtain an expression for the equivalent emf and internal resistance of...
09:09
|
What is a solenoid ? Derive an expression for the magnetic field ...
05:25
|
Find an expression for the torque acting on a magnetic dipole p...
03:06
|
Derive th lens maker's formula.
07:16
|
State the law of radioactivity and hence, show that N=N(0)e^(-lambda ...
06:54
|
Classify metals, semiconductors and insulators based on the band theor...
04:43
|
Two point charges q(A)=3muC and q(B)=-3muC are located 0.2 m apart in ...
04:36
|
Three resistors 2Omega, 4Omega and 5Omega are connected in parallel. W...
01:50
|
If the combination is connected to a battery of emf 20 v and n...
03:18
|
A radio can be tuned over the frequency range of a portion of ...
04:11
|
In Young.s double slit experiment, using monochromatic light of wavele...
03:16
|
It is found that an electron in an hydrogen atom requires +13...
04:06
|

Home

Profile