A spherical convex surface separates obj...

A spherical convex surface separates object and image space of refractive index `1.0 and 4/3.` If radius of curvature of the surface is `10cm,` find its power.

Text Solution

Verified by Experts

Let us see where does the parallel rays coverage (or diverge) on the principal axis. Let us call it the focus and the corresponding length the focal length f.
We have, `mu_(2)/v-mu_(1)/u=(mu_(2)-mu_(1))/R`
`(4//3)/f-1.0/(oo)=(4//3-1.0)/(+10)`
or frequency f=40 cm=0.4 m

Since the rays are converging, its power should be positive. Hence,
P(in dioptre)`=(+1)/(f("metre"))=1/0.4orP=2.5 D`

Topper's Solved these Questions

RAY OPTICS
DC PANDEY|Exercise Checkpoint 9.1|10 Videos
RAY OPTICS
DC PANDEY|Exercise Checkpoint 9.2|10 Videos
NUCLEI
DC PANDEY|Exercise C MADICAL ENTRANCES GALLERY|46 Videos
REFLECTION OF LIGHT
DC PANDEY|Exercise Subjective|9 Videos

Similar Questions

Explore conceptually related problems

A spherical convex surface separates object and image space of refractive index 1.0 and 4//3 . If radius of curvature of the surface is 10 cm , find its power.

A spherical convex surface separates object and image spaces of refractive indices 1.0 and 4//3 . If radius of curvature of the surface is 10cm, find its power.

A point object is placed in air at a distance of 40 cm from a concave refracting surface of refractive index 1.5. If the radius of curvature of the surface is 20 cm, then the position of the image is –

A plano-convex lens is made of refractive index 1.6. The radius of curvature of the curved surface is 60 cm. The focal length of the lens is

A plano convex lens is made of glass of refractive index 1.5. The radius of curvature of its convex surface is R. Its focal length is

A point source of light is placed in air, 100 cm away from a convex spherical surface, made of material of refractive index 1.5 and having radius of curvature = 20 cm. If the source emits light, at what position from the convex surface image will be formed?

The focal length of a convex lens is 10 cm and its refractive index is 1.5 . If the radius of curvature of one surface is 7.5 cm, the radius of curvature of the second surface will be :

DC PANDEY-RAY OPTICS-Medical entrance gallary

A spherical convex surface separates object and image space of refract...
Text Solution
|
Two identical glass (mu(g)=3//2) equi- convex lenses of focal length f...
Text Solution
|
An air bubble in a glass slab with refractive index 1.5 (near normal i...
Text Solution
|
A person can see clearly objects only when they lie between 50 cm and ...
Text Solution
|
An astronomical telesope has objective and eyepiece of focal lengths 4...
Text Solution
|
Match the corresponding entries of Column I with Column II.
Text Solution
|
The angle of incidence for a ray of light at a refracting surface of a...
Text Solution
|
Two identical thin planoconvex glass lenses (refractive index 1.5) eac...
Text Solution
|
The refracting angle of a prism is A and refractive index of the mater...
Text Solution
|
The near point and far point of a person are 40cm and 250cm, respectiv...
Text Solution
|
An object is seen thorugh a simple microscope of focal length 12 c. Fi...
Text Solution
|
Angle of minimum deviation for a prism of refractive index 1.5 is equa...
Text Solution
|
A ray of light passes from a medium A having refractive index 1.6. to ...
Text Solution
|
The focal length of a converting lens are f(v) and f(r) for violet and...
Text Solution
|
Aperture of human eye is 0.2cm. The minimum magnifying power of a visa...
Text Solution
|
An object is located 4cm from the first of two thin converging lenses ...
Text Solution
|
If mu(v)=1.530 and mu(R)=1.5145, then disperisve power of a crown glas...
Text Solution
|
Disperion of light is caused due to
Text Solution
|
Calculate the focal length of a reading glass of a person, if the dist...
Text Solution
|
A person wants a real image of his own, 3 times enlarged. Where should...
Text Solution
|
The magnification power of a convex lens of focal length 10cm, when th...
Text Solution
|