newton’s rings. ab p q o air film plano convex lens glass plate thickness of air film is zero at...
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Newton’s Rings
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A B
P QO
Air film
Plano convex lens
Glass plate
Thickness of air film is zero at point of contact O.
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Reflected light
Air film
L
G
Circular interference fringes are formed by reflected light
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S
45ºMicroscope
glass
Lens
Air film
Glass plate
L
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Interference occurs between the light reflected from the lower surface of the lens and the uppersurface of the glass plate G.
Since the convex side of the lens is a spherical surface, the thickness of the air film will be cons-tant over a circle (whose centre will be at O ) andwe will obtain concentric dark and bright rings.
Newton’s rings
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It should be pointed out that in order to observe the fringes the microscope has to be focused on the Surface of the film.
Each ring will be locus of all such points where thickness is same.
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Condition for bright ring will be
2)1n2(rcost2
For air film , =1 and for near normal incidencer is very small and hence cos r = 1
Thus,
2)1n2(t2
Where n = 0,1,2,3….
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For dark rings,
nrcost2
Again for air film = 1 and for small r we haveCondition for dark rings,
nt2
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O
R
A Btn
rn
R - tn
tn
M N
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R = radius of curvature of lenst = thickness of air film at a distance AB =rn
OA = R - tFrom OAB
R2 = (R – t)2+rn2
rn2 = R2 - (R – t)2 = R2 - R2 –t2 +2Rt = 2Rt – t2
As R>>t , rn2 = 2Rt
t = rn2/2R
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So condition for bright rings 2t = (2n+1)/2
2
R1n22D Diameter
2
R1n2r
2
R)1n2(r
2)1n2(
R2
r2 ,or
n
n
2n
2n
n = 0,1,2,3,….
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Similarly for dark rings,
Rnr
nR2
r2
nt2
n
2n
n = 0,1,2,3,….
Diameter of dark rings,
Rn2r2D nn
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CENTER IS DARK
At n = 0, radius of dark ring = 0.
radius of bright ring = 2
R
Alternately dark and bright rings will be produced.
The spacing between second and third dark ringsis smaller than the spacing between the first andsecond one.
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Consider the diameter of dark rings
R4R42D
R32R32D
R22R22D
R2R12D
4
3
2
1
R2DD 14
Four fringes
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fringes 8R2DD
R8R162D
R6R92D
916
16
9
Fringe width decreases with the order of theFringe and fringes get closer with increase in their order.
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Wavelength determination
Radius of the nth dark ring rn is given by
)1.....(Rn4D
Rn4
D
Rnr
2n
2n
2n
Similarly for (n+m)th dark band
)2....(Rmn4D2mn
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(2) – (1)
Rm4
Rn4Rmn4DD 2n
2mn
mR4
DD 2n
2mn
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Suppose diameter of 6th and 16th ring areDetermined then, m = 16-6 = 10
So
R104
DD 26
216
Radius of curvature can be accurately measuredwith the help of a spherometer and thereforeby measuring the diameter of dark or bright ringyou can experimentally determine the wavelength.
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Newton’s rings with transmitted light
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Transmitted light
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Condition for bright fringes
nrcost2
Condition for dark fringes
2)1n2(rcost2
For air as thin film and near normal incidence = 1 and cosr = 1
So for bright fringes, 2t = n
For dark fringes,
2
1n2t2
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But we know that R2
rt
2
, r = radius of ring
For bright rings
Rnr nR2
r2 2
For dark rings
2
R)1n2(r
2)1n2(
R2
r2 2
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If we put n = 0 then r = 0 for the bright ring
So for Newton's rings for transmitted rays the central ring will be bright.
CENTRAL RING IS BRIGHT.
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WAVELENGTH DETERMINATION
We know radius of the nth dark ring rn is
Rn4D
Rn4
D
Rnr
2n
2n
2n
…….(1)
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Similarly,
R)mn(4D2mn ……..(2)
(2) – (1)
Rm4
Rn4R)mn(4DD 2n
2mn
mR4
DD 2n
2mn
……..(3)
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Suppose diameter of the 8th and 18th ring areDetermined then, m = 18-8 =10 and
R104
DD 28
218
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Refractive index determination
air
Diameter of the dark rings
Rm4D2n
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R)mn(4D2mn
Rm4
Rn4R)mn(4DD 2n
2mn
Liquid of refractive index
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(for near normal incidence and g<
Condition for dark ring formation
Rn4D
Rn
2
D
Rnrn
R2
r2
R2
rt but nt2
2n'
2'n
2n'
2n'
2n'
nn
…..(4)
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Similarly we can get
R)mn(4
D2
mn'
So,
2n'2
mn'
2n'2
mn'
DD
Rm4
Rm4DD
This is the value of if is known.
…….(5)
(5) – (4)
…….(6)
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Can also be determine if is unknown
We have from equation (3) and (6)
Rm4
Rn4R)mn(4DD 2n
2mn
……..(3)
Rm4
DD2n'2
mn' …….(6)
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Divide (3)/(6)
2n'2
mn'
2n
2mn
DD
DD