SSBsir Physics-Ray Optics Assignment PDF

Summary

This Physics assignment covers Ray Optics and Optical Instruments, including short answer questions and multiple choice questions (MCQs). It includes topics such as mirrors, lenses, microscopes, and optical fibers.

Full Transcript

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RAY OPTICS AND OPTICAL INSTRUMENTS
SHORT QUESTIONS:- Mark
1

MCQS
1. A ray of lightstrikes
a silvered toanotherone
surfaceinclined at an angleof 90'Then thereflected
ray will turn
through

M
(a) o
(b) 45 (c) 90 (d) 180"
2. If thereflected
image formed is magnifiedandvirtual,
then the mirror system is
(a)concave only (b) convex only (c) plane (d}concaveor convex
A compound microscopeconsistsof an objective lenswith focallength1.0cm and eye pieceof focallength2.0
cm anda tubelength20 cm the magnification
will be
(a) 100 (b)200 (c) 250 (d) 300

4. A converginglensis used to form an imageon a screen.When the upper halfof the lens is coveredby an opaque
screen,
a)halfthe image willdisappear (b) completeimage willdisappear
(c) intensity
of image will decreases (d) intensityof image will increases.

5. A compound microscope consistsof an objectivelenswith focallength1.0cm and eye pieceof focal length2.0
cm and a tube length20 cm themagnification
will be
(a) 100 (b)200 (c)250 (d) 300
6.
A converginglens is used to form an image on a screen. When the upper halfof the lensis coveredby an opaque
Screen
(a)halftheimage willdisappear.
(b) incompleteimage will be formed.
(c)intensityof image will decreasebut completeimage isformed.
(d) intensityof image will increasebut image is not distinct.
7. Inopticalfibres, therefractive index of thecoreis
(a)greaterthan that of thecladding. (b)equal to thatof the cladding.
(c)smaller than thatof the cladding. (d) independentof thatof cladding.
8. An objectis placedat a distance
of 0.5m infrontof a plane mirror.
The distancebetween object
and image will
be
(a) 0.25 m (b) 0.5m (c) 1.0m (d) 2.0 m
9 Airbubble in water behavesas
(a) sometimes concave,sometimes convex lens
(b) concave lens

(c) convex lens
(d) alwaysrefracting
surface
10.We combine two lenses,one is convex and other is concave having focal lengths f(1) and f (2)and their
combined focallengthis F. Combination of the lenseswill behavelike concavelens,if
(a) f,> fa (b) f; = f; (c)f< f (d) f; n, and (ii)ng

A dot is made
d,> d,and refractive
indices

at the bottom of the
,
isequalto theangleof theprism.Findthe angleof the

>>Ha are put in a beaker. Ihe

beaker.For near normal vision,
tindthe

21.Show that for a materialwith refractive
index 2V2.lightincident at any angleshallbe guidedalong a length
perpendicularto the incident
face
Z2. In the followingdiagram,an object'0'
is placed15 cm in frontof a convex lensL, of focal length20 cm and the
finalimage is formed of 80 cm from the secondlensL,Findthe focallengthof the lens L.
at I ata distance
20cm 80cm

15cm

Ly

23. Usingtheray diagram for a system of two
thetwo lenssystem can be regardedas equivalent
to a singlelensof focallengtht,
where
11
lensesof focallengthsf; and f in contactwith each other,show that
1

Alsowritetherelation power of the lenscombination.
for theequivalent
24. Determine the positionof theimage formed by the lenscombinationgivenin thefigure.
J10.,
-10 +30 cm

30 cn

cin0
25.A ray PQ incidentnormalyon the refracting intheprism BAC made of materialof refractive
faceBA is refracted
index1.5. Complete the path of ray through the prism.From which face will the ray emerge? Justifyyour
answer.

26. (a) Writetwo necessaryconditions for totalinternal
reflection.
(b) Two prismsABC and DBC are arrangedas shown in figure.
anglesfor the two prismswith respecttoairare41.1"
The critical and 45° respectively.
Trace the path of the
raythrough thecombination.

27.Figureshows a ray of light
passingthrougha prism.If the refracted
rayQR tothebase
is parallel BC,show that
() ==A /2,

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 ) angel of minimum deviation, , 2-A

28. A ray of lightis incident
on a prism at an angleof 45tand passes symmetricaly
as shown in thefigure,
Calculate.
(a) the angleof minimum deviation,
(b) therefractive
index of thematerial
of the prism,and
(c)the angleof refraction
atthepoint P.

29. Three rays(1,2, 3) of differentcolours fall
normally on one of the sidesof an isosceles
rightangledprism as
shown. The refractiveindex of prism for theseraysis 1.39,1.47and 1.52respectively.Findwhich of theserays
getinternally
reflected and which get only refracted from AC. Tracethe paths of rays.
Justify
your answer with
thehelpof necessary calculations.

30. The figureshows a rayof lightfalling
normallyon the faceAB of an equilateral glass
prismhaving refractive
index
3
placedin water of refractiveindex Will this ray suffertotalinternalreflection
on strikingthe face AC?
2'
Justifyyour answer.

31.A ray of lightpassing from airthrough an equilateral
glassprism undergoes minimum deviationwhen theangle
of incidentis % of the angleofprism.Calculate intheprism.
thespeedof light
32. (a) Draw a ray diagramfor theformation of image by a compound microscope.
(b) You aregiventhefollowingthreelenses. to
Which two lenseswill you use asan eyepieceand as an objective
constructa compound microscope?
Lenses Power (LD) Aperture(em)

6

Lg 10

33.Drawa ray diagram to show how the finalimage is formed at infinity in an astronomical refractingtelescope.
Obtainan expression for itsmagnifyingpower.
34. Draw theimage,when an objectis placedbetween the focus and pole of a convex lens.
35. An illuminatedobjectand a screenareplaced90 cm apart. Determinethe focallengthand natureof the lens
requiredto produce a clearimage on the screen,twicethe size of the object.
36. Findtheequivalent focallengthof the combination of lens.

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 Blass
Blass

Water
37. With the help of a ray diagram explainthe working of
a reflecting
telescope.
Mention two advantagesot a
reflecting
telescope over a refracting
telescope
S8. A symnmetricbiconvexlensof radiusof curvatureR and made of glassof
lndex 1.5,s
refractive placedon atayer
oT liquid
placedon topofa plane mirroras shown inthefigure.
An opticalneedlewith itstip
on theprincipalaxis
oT theens ismoved along theaxs untilItsreal,invertedimage coincides
with the needleitself.
The distarniceot
the needlefrom the lensis measured to be x. On removing theliquldlayerand repeatingtheexperiment,the
distanceisfoundtobe y.Obtaintheexpression for therefractive
index of theliquid
in termsof x and y. (2018)

LONG QUESTIONS : 5 Marks each
An objectis placedin front of a concave mirror.It is observedthata virtualimage is formed. Draw the ray
1.
diagram toshow theimage formationand hence derivethe mirror equationA
111
2. Derivelensmaker'sformulafor a biconvex lens.
(a)
the principalaxis of a convex lensof focallength 10 cm. A
(b) A pointobjectis placedat a distanceof 12 cm on
If thefinalimage coincides
Convex mirroris placedcoaxially on the other sideof the lensat a distance of 10 cm.
focal length of the convex mirror. (2020)
with the object, sketchthe ray diagram and findthe
objecton the principalaxis of a spherical
3. Draw a ray diagram showing the formationof the image by a point
indices njand n, when a point source is kept in rarermedium
Convex Surfaceseparating two media of refractive
and image distance in terms of refractive index of the
index n,. Derivethe relation b etween object
of refractive
medium and radiusof curvatureof the surface.
formulainthe case of thinconvex lens. (Delhi2014C)
Hence obtainthe expression for lens-maker's
compound microscope at least
image by a
4. (a) Drawa labelled ray diagram showing the formationof a final
distanceof distinctvision. produced by theeye
(b) The totalmagnification produced by a compound microscopeis 20. The magnification and eyepiece
certainobject.The distancebetween the objective
pieceis 5. The microscopeis focussedon a of the objective
calculate the focallength
is observed to be 14 cm. If leastdistance of distinctvisionis 20 cm,

and theeye piece. telescope.
is formed at infinityinan astronomical refracting
5. Draw
(0) a ray diagram to show how the finalimage

Obtainan expression for itsmagnifyingpower.
L, a concave lensof focallength
L beinga convex lensof focallength24 cm and
(i0) Two thin lensesLy and L,, in front of the lens at a
of 45 cm. A 1 cm tallobjectis placed
L
at a separation
18 cm are placedcoaxially
heightof theimage formed by the combination.
distance of 36 cm. Findthe locationand 4
to water. Given ugw and
index of glass with respect 3
:
6. (a)Findtherefractive
under water. If the wavelength of

(b) A source of yellowlight placedin airis observedby a person swimming
colour observed by the person.
wavelengthand as
yellowlightinairis 6000 A, then finditsspeed, of refraction r,what is the
of thickness t at an anglei with an angle
ray thrOugh a glass slab
(c) When a passes
lateralshiftof the emergent ray?

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 NCERT EXCERCISES:
1 A Smal candle,25 cm in sizeis placedat 27 cm in tront of a concave mitror of radius
what distancefrom the mrror shoulda screenbe
of curvature3o crm. At
placedin order to obtain a sharpimage? Describethenatura
and sizeof the inage.Ii the candleismoved closer to themirror, how would thescreenhavetobe moved
A5 cm needleisplaced 12 cm away from a convex
image and theagnitication,
miror of focallength15cm. Givethe location the
Describewhat happens as the needleismoved fartherfrom o
A tank is filedwith water to a height of 12.5 themirror
cm The
S measUred by a microscopeto be 9,4 cm. What is apparent depth ofaneedlelyingat the botfom of thetank
the refractive index of water?If water isreplacedby a
of retractiveindex 1.63upto the same height.by what lquo
focuson the distance would the microscope have to be
needleagain? move0 To
Fgures (a) and (b) show refractionof a ray in air
incidentat 60 with the normal to a
interface,
respectively.Predictthe angleof refraction glass-airand water-ait
in glasswhen the angleof
thenormaltoa water-glass incidence in wateris45 with
interface[Figure].

Air Glass
Lir
Water Water
60
45;
5. A smallbulb isplacedat the bottom of a
tank containingwater to a depth of 80
SUrlacoofwater thDugh.whichlicht cm. What isthe area ot the
from the bulb can emerce cut?
thebulb to be a pointsource). Refractive index of water is1.33. (Consicder
6. A prism ismade of glassof
unknown refractive index.A parallel
The angleof minimum deviationis beam of lightis incidenton a faceof the prism.
measured to be 40°.What is the refractive index of the materialof the prism?
The refractingangleof the prism is 60°. If the prism isplacedin
angleof minimum deviationof a parallel water (refractive index 1.33). predictthe new
beam of light.
7 Double-convexlensesare to be manufacturedfrom a glassof
refractiveindex 1.55, with both facesof the same
radiusof curvature.What is the radiusof curvaturerequired ifthe focallength is to
8 A beam of light be 20 cm? [AI20171
convergesat a pointP.Nowa lensisplacedinthe path of the
At what pointdoes thebeam convergeif convergentbeams 12 cm from P
the lensis
a) a convex lensof focallength20 cm and
(b)a concave lensof focallength16 cm?
9 An objectof size3.0cm is placed14 cm in frontofa (SimilarDehradun 2019)
concave lens ot focal length 21 cm, Describetheimage
produced by the lens. What happens theobjectismoved furtheraway from the
lens?
if
10. What is the focal lengthof a convex lensof
focallength30 cm in contact with a concave lensof focallength20
cm? Is the system a converging ora diverging lens?lgnorethicknessof the lenses.
11. compOund microscopeconsists of an otbjectivelensof focal
A
length2.0 cm and an eyepleceof focal length
6.25 cm separatedby a distanceof 15 cm. How far from
the objective shouldan objectbe placedinorder to
obtainthefinalimage at
(a) theleastdistance
of distinct
vision(25cm),and
(b) at infinity?
What is the magnifyingpower of the microscopein each case?
12. A person with a normal near point(25cm) using a compound microscope
with objectiveof focallength 8.0 mm
and an eyepieceof focallength2.5cm can bring an object
placedat 9.0 mm from the objective insharp focus
What is the separation between the two lenses?Calculate themagnifying power of the microscope.
13. A smalltelescopehas an objective lensof focallength144 cm and an eyepieceof focallength6.0
cm. What is
the magnifyingpower of thetelescope? What is theseparationbetween the objectiveand the eyepiece?
14. (a) A giantrefractingtelescope atan observatory has an objective lensof focallength 15 m. It an eyepieceot
focallength1.0cm is used,what isthe angularmagnification of the telescope?
(b) If thistelescopeisused to viewthe moon, what isthediameterof the image of the moon formedby the
objective lens?The diameterof the moon is3.48X 10"m, and the radiusof lunarorbitis 3.8 X
15 Use the mirror equation to deduce that
10 m.
(a) an objectplacedbetween and 21 of a concave mirrorproduces a realimage beyond 2.
f
[Chennal2019, Foreign2017)
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 p) a Convex mirror always
produces a virtualimage independentof thelocation
of the oojea
(G theVinualiiage produced by a convex mirroris (Chennai2019,Deihi 2016]
and the pole. alwavs diminishedinsizeandisocatedbetween tnerocus
(O) an objectplacedbetweenthepole and focusof a
concave mirrorproduces virtual
16 A Small pin tixedon a tabletopisviewedfrom above from a.distanceof 50 cm.a By and enlargedimage,
what distancewouio tne pin
appear to be raisedif it isviewedfrom the same pointthroupha 15 cm
thickglass slab neld parale to
table?Refractive index of glass=15.Does the answer depend on the
17. location
of theStabr
(a)igureshows a cross-section pipe'made of a alassfibreof refractiveindex 1.68.ne oute
of a "liaht

oveno o the pipeismade of a materialof refractiveindex1.44,What istherange of theanglesof theincident
rayswiththeaxiSof thepipe for which totalreflections
insidethepipe take placeas shown inthe igure
(b)What is the answerifthereis no outercoveringof the
pipe?

18. The imageofa smallelectric
bulbfixed
on thewallof a room isto be obtainedon theoppositewall 3 m away by
means of a largeconvex lens.What is themaximum possible focallengthof thelensrequired forthepurpose?
19. A screenisplaced90 cm from an object.The imageof theobjecton the screenis formed by a convex lensat
two different
locationsseparatedby 20 cm. Determinethe focallengthof thelens.
20. An angularmagnification (magnifyingpower) of 30 Xisdesiredusingan objective of focallength1.25cm and

an eyepieceof focallength5 cm. How willyou set up the compound microscope?