Atmospheric refraction
yschhabra
16,536 views
44 slides
Nov 11, 2011
Slide 1 of 44
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
About This Presentation
No description available for this slideshow.
Slide Content
GAURAV GUPTA(22)
GUNISH GROVER(25)
GUNISH GROVER(25)
LIST OF CONTENTS
What is refraction
Refraction through glass slab
Laws of refraction
Advanced sunrise and delayed sunset
Twinkling of stars
Why don’t planets twinkle..
Apparent flattening of sun’s disc at sunrise and sunset
Mirage
References
What is refraction
Refraction through glass slab
Laws of refraction
Advanced sunrise and delayed sunset
Twinkling of stars
Why don’t planets twinkle..
Apparent flattening of sun’s disc at sunrise and sunset
Mirage
References
WHAT is REFRACTION of light ?
REFRACTION of light is the phenomenon of change
in the path of light, when it travels from one medium
to another.
The basic cause of refraction is change in velocity in
going from one medium to the other.
REFRACTION of light is the phenomenon of change
in the path of light, when it travels from one medium
to another.
The basic cause of refraction is change in velocity in
going from one medium to the other.
Incident ray
Incident ray
Incident ray
Interface of
two media
two media
i
Angle of incidence
Angle of incidence
i
Refracted ray
Refracted ray
i
r
Angle of refraction
r
Angle of refraction
i
r
Emergent ray
r
Emergent ray
i
r
e
Angle of emergence
r
e
Angle of emergence
i
r
e
r
e
i
r
e
Lateral displacement
r
e
Lateral displacement
laws of REFRACTION
The incident ray, refracted ray and the normal to the
interface at the point of incidence, all lie in the same plane.
The product of refractive index and sine of angle of
incidence/refraction at a point in a medium is constant
i.e., u * sin i= constant.
therfore, u1 sin i1 = u2 sin i2
i1 = i and i2 = r
hence, u2 / u1 = sin i / sin r
and it is also known as SNELL’s LAW.
The incident ray, refracted ray and the normal to the
interface at the point of incidence, all lie in the same plane.
The product of refractive index and sine of angle of
incidence/refraction at a point in a medium is constant
i.e., u * sin i= constant.
therfore, u1 sin i1 = u2 sin i2
i1 = i and i2 = r
hence, u2 / u1 = sin i / sin r
and it is also known as SNELL’s LAW.
ADVANCED SUNRISE & DELAYED
SUNSET
The sun is visible to us before the
actual sunrise and after the sunset.
The density of air near the surface of
earth is slightly higher. The rays
from the sun coming through space
enter at the top of earth’s
atmosphere and travel from rarer to
denser medium.
They bend slightly towards normal
at each refraction and appear to
come from apparent position of sun.
Hence, the sun appears to rise a few
minutes before the actual rise and
for the same reason, it continues to
be seen a few minutes after it has
actually set.
SUNSET
The sun is visible to us before the
actual sunrise and after the sunset.
The density of air near the surface of
earth is slightly higher. The rays
from the sun coming through space
enter at the top of earth’s
atmosphere and travel from rarer to
denser medium.
They bend slightly towards normal
at each refraction and appear to
come from apparent position of sun.
Hence, the sun appears to rise a few
minutes before the actual rise and
for the same reason, it continues to
be seen a few minutes after it has
actually set.
HORIZON
HORIZON
HORIZON
HORIZON
Good morning...!
Good morning...!
HORIZON
Good morning...!
Good morning...!
HORIZON
HORIZON
Twinkling of stars
The starlight on entering earth’s
atmosphere, undergoes refraction
continuously before it reaches
observer.
Since the refractive index of earth’s
atmosphere is gradually changing, the
atmosphere bends the starlight
towards the normal, and the apparent
position of star is slightly higher than
its actual position.
As the path of rays of light coming
from the star goes on varying slightly,
the apparent position of the star
fluctuates and the amount of light
entering the eye flickers..!!
The starlight on entering earth’s
atmosphere, undergoes refraction
continuously before it reaches
observer.
Since the refractive index of earth’s
atmosphere is gradually changing, the
atmosphere bends the starlight
towards the normal, and the apparent
position of star is slightly higher than
its actual position.
As the path of rays of light coming
from the star goes on varying slightly,
the apparent position of the star
fluctuates and the amount of light
entering the eye flickers..!!
Observer
Actual star
position
Actual star
position
Observer
Actual star
position
Actual star
position
Observer
Actual star
position
Refraction in
atmosphere..
Actual star
position
Refraction in
atmosphere..
Observer
Actual star
position
Refraction in
atmosphere..
Actual star
position
Refraction in
atmosphere..
Observer
Actual star
position
Refraction in
atmosphere..
Actual star
position
Refraction in
atmosphere..
Observer
Actual star
position
Refraction in
atmosphere..
Apparent star
position
Actual star
position
Refraction in
atmosphere..
Apparent star
position
Apparent star
position
position
Actual star
position
position
Apparent star
position
position
Actual star
position
position
Apparent star
position
position
Why don’t planets twinkle..??
The planets are much closer to
the earth, and thus are seen as
extended sources. If we consider a
planet as a collection of large
number of point sized sources of
light, the total variation in the
amount of light entering our eye
from all the individual point
sized sources will average out to
zero, thereby nullifying the
twinkling …effect..!!
The planets are much closer to
the earth, and thus are seen as
extended sources. If we consider a
planet as a collection of large
number of point sized sources of
light, the total variation in the
amount of light entering our eye
from all the individual point
sized sources will average out to
zero, thereby nullifying the
twinkling …effect..!!
APPARENT FLATTENING OF SUN’S
DISC AT SUNRISE AND SUNSET
If the sun (or moon) is low
above the horizon, the optical
path of the light through the
atmosphere is very long, and the
atmosphere usually has a
layered structure: different
temperature gradients and
pressure.
Refraction of the light by these
layers can cause the sun's disk to
be deformed, flattened or
distorted. Inferior and superior
mirages are responsible for the
distortions.
DISC AT SUNRISE AND SUNSET
If the sun (or moon) is low
above the horizon, the optical
path of the light through the
atmosphere is very long, and the
atmosphere usually has a
layered structure: different
temperature gradients and
pressure.
Refraction of the light by these
layers can cause the sun's disk to
be deformed, flattened or
distorted. Inferior and superior
mirages are responsible for the
distortions.
MIRAGE:MOST NOTICEABLE
A highway mirage is an inferior
mirage which can be seen very
commonly on roadways by day or
by night.
Warm air is less dense than cool
air, and the variation between the
hot air at the surface of the road
and the denser cool air above it
creates a gradient in the refractive
index of the air. Light from the sky
at a shallow angle to the road
is refracted by the index gradient,
making it appear as if the sky is
reflected by the road's surface.
The mind interprets this as a pool
of water on the road, since water
also reflects the sky.
A highway mirage is an inferior
mirage which can be seen very
commonly on roadways by day or
by night.
Warm air is less dense than cool
air, and the variation between the
hot air at the surface of the road
and the denser cool air above it
creates a gradient in the refractive
index of the air. Light from the sky
at a shallow angle to the road
is refracted by the index gradient,
making it appear as if the sky is
reflected by the road's surface.
The mind interprets this as a pool
of water on the road, since water
also reflects the sky.
REFRENCES
Pradeep vol.2 edition 2006
http://en.wikipedia.org/wiki/Atmospheric_refraction
PHYSICS textbook NCERT EDITION MARCH 2007.
Pradeep vol.2 edition 2006
http://en.wikipedia.org/wiki/Atmospheric_refraction
PHYSICS textbook NCERT EDITION MARCH 2007.
THANK
YOU!!!
YOU!!!
Tags
Categories
GeneralDownload
Download Slideshow Get the original presentation fileQuick Actions
Statistics
- Views 16,536
- Slides 44
- Favorites 13
- Age 5136 days
Related Slideshows
22
Pray For The Peace Of Jerusalem and You Will Prosper
RodolfoMoralesMarcuc
32 views
26
Don_t_Waste_Your_Life_God.....powerpoint
chalobrido8
33 views
31
VILLASUR_FACTORS_TO_CONSIDER_IN_PLATING_SALAD_10-13.pdf
JaiJai148317
31 views
14
Fertility awareness methods for women in the society
Isaiah47
30 views
35
Chapter 5 Arithmetic Functions Computer Organisation and Architecture
RitikSharma297999
27 views
5
syakira bhasa inggris (1) (1).pptx.......
ourcommunity56
30 views