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Transcript of These figures are made of individual shapes created in powerpoint. The easiest way to use these...
These figures are made of individual shapes created in powerpoint.
The easiest way to use these figures is select the entire figure with your mouse, copy the figure (ctrl-c), and, then, paste the figure (ctrl-v) into Paint. Now, copy the image from Paint (ctrl-c) and paste it into your document. This will place a jpg image into your document instead of the shapes created in powerpoint.
If you have questions or comments, please e-mail Chad @
Find other teaching resources at these sites:
http://www.nicholls.edu/phsc/lacue/
http://www.nicholls.edu/phsc/cyoung/links.html
+ =
Wave front
Light rays
1
2
Air, n=1
Glass, n=1.3
1
2
Air, n=1
Glass, n=1.3
1
2
n1
n2
1
Air, n=1
Glass, n=1.3
Air, n=1
Glass, n=1.3
Air, n=1
Water, n=1.3
1
2Air, n=1
Glass, n=1.3
n1
n2
n1
n2
Indexof Refraction
Wavelength
Glassn=1.53
n=1.51
=400 nm =700 nm
1
p
q
1
50⁰
r
120⁰
1
n2=1.0
n1=1.4
50⁰60⁰
Mirror 1
Mirror 2
1 2
a b c d e
a b c d e
n1=1.4
n2=1.3
no=1o
c
n1=1.45
n2=1.4
no=1o
c
n2=1.2
o
c
n1=1.3
n0=1
Reflectingsurface
Back of mirror
Convex Mirror
Reflectingsurface Back of
mirror
Concave Mirror
_________ Mirror
_________ Mirror
Convex Mirror
Concave Mirror
f c f
f c f f c f
#2
#1
Object outside the focal point
#4
#3Object outside the focal point
Object outside the focal point
#2
#1
#4
#3
#4
#1#3
Object at thefocal point
Object at thefocal point
#2
#1
Object inside the focal point
Object inside the focal point
#4
#3
Object inside the focal point
#2
#1
#4
#3
Object outside the focal point
#1
#2
#3
Object at the focal point
No image
#1
#3
p>0q>0M<0
p>0q=
Object insidethe focal point
#1
#2
#3
p>0q<0M>0
(b)
(a)
(c)
Object outside the focal point
Object at the focal point
No image
pqM
pq
Object insidethe focal point
pqM
Atmospheric Refraction
Hot air
Convex Lens(aka converging lens)
Concave Lens(aka diverging lens)
_____________________
_____________________
f c f f c f
Whatkindof
mirror?
Object
Image
Whatkindof
lens?
Object
Image
f f
Whatkindof
lens?
Object Image
Whatkindof
mirror?
Object Image
n1 =1.2
n2 =?
n3 =1.3
n2 =1.5
n1 =1.0
water
silicon oil
airn1 =1.4
ethanol
Whatkindof
mirror?
Object
Image
Whatkindof
lens?
Object
Image
f f
f f
f=10 cm f=20 cm
20 cm 60 cm
f=10 cm f=20 cm
20 cm 60 cm
f=10 cm f=20 cm
20 cm 15 cm
f=10 cm f=15 cm
20 cm 50 cm
f=10 cm f=15 cm
20 cm 50 cm
f=10 cm f=20 cm
20 cm 60 cm
f=15 cm f=15 cm
30 cm 60 cm
40 cm30 cm
f1=10 cm f1=20 cm
40 cm30 cm
f1=10 cm f1=20 cm
15 cm 25 cm
100 cm
30 cm30 cm
f1=10 cm f2=15 cm
20 cm30 cm
f1=10 cm f2=10 cm
45 cm30 cm
f1=10 cm f2=15 cm
f=10 cm f=20 cm
20 cm 15 cm
f=10 cm f=15 cm
20 cm 50 cm
f=10 cm f=20 cm
20 cm 15 cm
f f
#1
#2
#3
p>0q<0M>0M<1
(a)
(b)
(c)
red light
blue light
+ =
+ =Destructive Interference
Constructive Interference
+ =
+ =
Destructive Interference
Constructive Interference
1
1
½
¼
constructiveinterference
destructiveinterference
y
1 cm
(a)
(b)
(c)
(d)
1
2
1
1.30 m
1
1.30 m
60.0⁰
1.30 m
0.750 m
y=_____ m
30⁰
Whatkindof
mirror?
Object
Image
Whatkindof
lens?
Object
Image
f f
R1 R2
f f
a
b
c d
e
+2Q
+2Q
-4Q
-Q
+1 C +2 C +3 C
-3 C-1 C-2 C
a b c d e
n1 =1.2
n2 =?
n3 =1.3
n2 =1.5
n1 =1.0
water
silicon oil
airn1 =1.4
ethanol
n=1.5
n =1.0
40⁰
glass
air
n =1.0air
n3 =1.3
n2 =1.5
n1 =1.0
water
silicon oil
airn1 =1.4
30⁰
ethanol
n3 =1.3
n2 =1.5
n1 =1.0
water
silicon oil
airn1 =1.4
30⁰
ethanol
n1 =1.2
n2 =?
n3 =1.3
n2 =1.5
n1 =1.0
water
silicon oil
airn1 =1.4
ethanol