Home
Class 11
PHYSICS
In the figure shown, there are two conve...

In the figure shown, there are two convex lenses `L_(1)` and `L_(2)` having focal. Lengths `f_(1)` and `f_(2)` respectively. The distance between `L_(1)` and `L_(2)` will be

A

`f_(1)`

B

`f_(2)`

C

`f_(1)+f_(2)`

D

`f_(1)-f_(2)`

Text Solution

Verified by Experts

The correct Answer is:
C
Promotional Banner

Topper's Solved these Questions

  • RAY OPTICS

    DC PANDEY|Exercise A. Only one option is correct (JEE Advance)|73 Videos

  • RAY OPTICS

    DC PANDEY|Exercise B. More than one option is correct|20 Videos

  • PROPERTIES OF MATTER

    DC PANDEY|Exercise Integer|8 Videos

  • ROTATION

    DC PANDEY|Exercise (C) Chapter Exercises|39 Videos

Similar Questions

Explore conceptually related problems

In Fig., there are two convex lenses L_(1) and L_(2) having focal lengths F_(1) and F_(2) respectively. The distance between L_(1) and L_(2) will be :

In Fig., there are two convex lenses L_1 and L_2 having focal lengths F_1 and F_2 respectively. The distance between L_1 and L_2 will be : .

In the figure given below there are two convex lenses L1 and L2 having focal lengths F1 and F2 respectively. The distance between L1 and L2 will be

Two wires of equal diameters, of resistivities rho_(1) and rho_(2) and length l_(1) and l_(2) , respectively of the combination is

In the circuit shown in Fig. If both the lamps L_(1) and L_(2) are identical.

In a pipe opened at both ends n_(1) and n_(2) be the frequencies corresponding to vibrating lengths L_(1) and L_(2) respectively .The end correction is

Two lines L_(1) and L_(2) of slops 1 are tangents to y^(2)=4x and x^(2)+2y6(2)=4 respectively, such that the distance d units between L_(1) and L _(2) is minimum, then the value of d is equal to