Define lens formula for concave spherical surface.
Answers
Explanation:
Let us now see the refraction of light at the spherical surface. Now, the change in direction or bending of a light wave passing from one transparent medium to another caused by the change in wave’s speed is the Refraction. Suppose the above figure is a spherical surface. There is one medium with refractive index n1 and second medium with refractive index n2.
There is an object O and a ray of light from the object O is incident on the spherical mirror. Since it is moving from a rarer medium to a denser medium, the ray bends towards the normal. An image is formed and radius of curvature of a spherical surface is R with the center C of the spherical surface.
Browse more Topics under Ray Optics And Optical Instruments
Some Natural Phenomenon due to Sunlight
Total Internal Reflection
Reflection of Light by Spherical Mirrors
Refraction
Refraction Through a Prism
Dispersion by a Prism
Optical Instruments
”u” is the object distance from a pole of a spherical surface
”v” is the image distance from a pole of the spherical surface
Now as we know that,
n1 is the refractive index of a medium from which rays are incident.
n2 is the refractive index of another medium
We get,
tanα =
M
N
O
M
tanγ =
M
N
M
C
tanβ =
M
N
M
I
Now, for Δ NOC, i is the exterior angle.
i = ∠ NOM + ∠ NCM
i=
M
N
O
M
+
M
N
M
C
…….1
Similarly,
r =
M
N
M
C
–
M
N
M
I
…….2
Now by using Snell’s law we get
n1 sin i = n2sin r
Substituting i and r from Eq. (1) and (2), we get
n
1
O
M
+
n
2
M
I
=
n
2
−
n
1
M
C
As, OM = -u, MI = +v, MC = +R
Hence, the equation becomes
n
2
v
–
n
1
u
=
n
2
−
n
1
R
Types of Lenses
Convex or Convergent Lenses
Concave or Divergent Lenses
A lens is a part of a transparent thick glass which is bounded by two spherical surfaces. It is an optical device through which the rays of light converge or diverge before transmitting. Thus spherical lenses are of two major kinds called Convex or Convergent lenses and Concave or Divergent lenses. The point from which these rays converge or appear to diverge is called the Focus or Focal point.
Convex or Convergent Lenses
A convex lens is thicker in the middle and thinner at the edges. A convex lens is also known as a “biconvex lens” because of two spherical surfaces bulging outwards.
Concave or Divergent Lenses
A concave lens is thicker at the edges and thinner in the middle. A concave lens is also known as a “biconcave lens” because of two spherical surfaces bulging inwards
Ray diagrams for image formation by lenses
Lens Formula
Lens formula relates the image distance (v), object distance(u) and the focal length (f) of the lens.
1
v
–
1
u
=
1
f
Question For You
Q1. A fish sees the smiling face of a scuba diver through a bubble of air between them, as shown. Compared to the face of the diver, the image seen by the fish will be:
small and erect
smaller and inverted
larger and erect
larger and inverted
Answer: A. The image will be smaller and erect since the air bubble act as a concave lens which always forms smaller and erect images.
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