A convex lens made of a material of refr...

A convex lens made of a material of refractive index `mu_1` is kept ih a medium of refractive index `mu_2`, Parallel rays of light are incident on the lens. Complete the path of rays of light emerging fromthe convex lens if `mu_1 > mu_2`.

Topper's Solved these Questions

Reflection of Lights and Mirrors
PUNJAB BOARD PREVIOUS YEAR PAPERS|Exercise EXERCISE|27 Videos
Semiconductor Devices
PUNJAB BOARD PREVIOUS YEAR PAPERS|Exercise Exercise|84 Videos

Similar Questions

Explore conceptually related problems

A convex lens made of a material of refractive index 'mu_1' is kept in a medium of refractive index mu_2 , Parallel rays of light are incident on the lens. Complete the pathof rays of light emerging fromthe convex lens if mu_1 < mu_2 .

A convex lens made of a material of refractive index mu_1 , is kept in a medium of refractive index mu_2 , Parallel rays of light are incident on the lens. Complete the pathof rays of light emerging from the convex lens if mu_1 = mu_2 .

A convex lens made of material of refractive index n_1 is kept in a medium of refractive index n_2 . Parallel rays of light are incident on the lens. Complete the path of light emerging from the convex lens, if n_1 < n_2

A convex lens made of material of refractive index n_1 is kept in a medium of refractive index n_1 . Parallel rays of light are incident on the lens. Complete the path of light emerging from the convex lens, if n_1 > n_2

A concave lens made of a material of refractive index mu_g is immersed in a medium of refractive index mu_l , equal to and

A concave lens made of a material of refractive index mu_g is immersed in a medium of refractive index mu_l , greater than,A paprallel beam of light is incident on the lens. Trace the path of emerged rays

PUNJAB BOARD PREVIOUS YEAR PAPERS-Refraction of Light and Lenses-EXERCISE

Derive Lens formula for[frac(1)(v)-frac(1)(u)= frac(1)(f)] a thin conv...
Text Solution
|
Derive the relation:- frac(mu2)(v) - frac(mu1)(u) = frac(mu2 - mu1) (R...
Text Solution
|
A convex lens made of a material of refractive index mu1 is kept ih a...
Text Solution
|
Derive the relation:- frac(mu2)(v) - frac(mu1)(u) = frac(mu2 - mu1) (R...
Text Solution
|
Derive expression for the lens maker’s formula i.e.: frac(1)(f)= (mu-1...
Text Solution
|
Derive the relation:- frac(mu2)(v) - frac(mu1)(u) = frac(mu2 - mu1) (R...
Text Solution
|
Derive the relation:- frac(mu2)(v) - frac(mu1)(u) = frac(mu2 - mu1) (R...
Text Solution
|
What is total internal reflection, state the necessary conditions for ...
Text Solution
|
Derive the relation:- frac(mu2)(v) - frac(mu1)(u) = frac(mu2 - mu1) (R...
Text Solution
|
What is the relation between focal length and radius of curvature of a...
Text Solution
|
By giving sign-conventions, derive the lens formula relating object di...
Text Solution
|
Derive Lens formula for[frac(1)(v)-frac(1)(u)= frac(1)(f)] a thin conv...
Text Solution
|
Derive Lens formula for[frac(1)(v)-frac(1)(u)= frac(1)(f)] a thin conv...
Text Solution
|
Derive Lens formula for[frac(1)(v)-frac(1)(u)= frac(1)(f)] a thin conv...
Text Solution
|
Derive the relation:- frac(mu2)(v) - frac(mu1)(u) = frac(mu2 - mu1) (R...
Text Solution
|
Derive Lens formula for[frac(1)(v)-frac(1)(u)= frac(1)(f)] a thin conv...
Text Solution
|
Derive Lens formula for[frac(1)(v)-frac(1)(u)= frac(1)(f)] a thin conv...
Text Solution
|
Define power of a lens
Text Solution
|
Derive Lens formula for[frac(1)(v)-frac(1)(u)= frac(1)(f)] a thin conv...
Text Solution
|
Define power of a lens
Text Solution
|