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10 Sci Light Notes

Here are the answers to the 3 marker objective questions: 1. Light travels fastest in vacuum and slowest in dense materials like glass, plastic or water because the speed of light depends on the optical density of the medium. In vacuum there are no particles, so light can travel at its maximum speed of 3×10^8 m/s. In dense materials, light interacts with and transfers momentum to the particles in the material, slowing it down. 2. A convex lens converges the light rays passing through it and brings them to a focus on the opposite side, forming a real, inverted image of the object. A concave mirror also converges the light rays, but forms a virtual, erect image on the same side as the

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1K views23 pages

10 Sci Light Notes

Here are the answers to the 3 marker objective questions: 1. Light travels fastest in vacuum and slowest in dense materials like glass, plastic or water because the speed of light depends on the optical density of the medium. In vacuum there are no particles, so light can travel at its maximum speed of 3×10^8 m/s. In dense materials, light interacts with and transfers momentum to the particles in the material, slowing it down. 2. A convex lens converges the light rays passing through it and brings them to a focus on the opposite side, forming a real, inverted image of the object. A concave mirror also converges the light rays, but forms a virtual, erect image on the same side as the

Uploaded by

ankitrathoreagent
Copyright
© © All Rights Reserved
We take content rights seriously. If you suspect this is your content, claim it here.
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Download as PDF, TXT or read online on Scribd
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Source: EDUDEL

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ECNALUBMA

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:

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Y

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Spherical lens

Biconcave

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On the basis of this position, this
lens is also known as magnifying
lens.

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S.No. Light ray Ray diagram How it appears after
from object refraction
is

After refraction from a


concave lens, the ray
1. Parallel to
appears to diverge from
the principal
the principal focus located
axis
on the same side of the lens

2. Passing After refraction from a


through a concave lens, the ray
principal appears to diverge from
focus the principal focus located
on the same side of the lens

3. Passing After refraction from a


through the concave lens will
optical center emerge without any
of a lens deviation

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1 MARKER OBJECTIVE QUESTIONS
I. MULTIPLE CHOICE QUESTIONS
1. Focal length of plane mirror is
a) At infinity b) Zero
c) Negative d) None of these
2. Image formed by plane mirror is
a) Real and erect b) Real and inverted
c) Virtual and erect d) Virtual and inverted
3. A concave mirror gives real, inverted and same size image if the object is
placed
a) At F b) At infinity
c) At C d) Beyond C
4. Power of the lens is-40, its focal length is
a) 4m b) -40m
c) -0.25m d) 25 m
5. A concave mirror gives virtual, erect and enlarged image of the object. The
position of the object is-
a) At infinity b) Between F and C
c) Between P and F d) At F
6. In optics and object which has higher refractive index is called -
a) Optically rarer b) Optically denser
c) Optical dense d) Refractive index
7. The optical phenomena, twinkling of stars, is due to
a) Atmospheric reflection b) Total reflection
c) Atmospheric refraction d) Total refraction

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8. Convex lens focus a real, point sized image at focus, the object is placed-
a) At focus b) Between F and 2F
c) At infinity d) At 2F
9. The unit of power of lens is
a) Metre b) Centimeter
c) Diopter d) M-1
10. The radius of curvature of a mirror is 20cm the focal length is-
a) 20cm b) 10cm
c) 40cm d) 5cm
Answer
1. a 2. c 3. c 4. c 5. c
6. b 7. c 8. c 9. c 10. b
11. Fill in the blanks:
(i) Image formed by a plane mirror is always ........... and ........... .
(ii) A spherical mirror, whose reflecting surface is curved inwards, that is,
faces towards the centre of the sphere, is called a ........... .
(iii) The focal length of a spherical mirror is equal to ........... its radius of
curvature.
(iv) Speed of light is ........... .
(v) Light rays always travels in ........... .
12. Answer in one word/one sentence.
(i) A concave mirror produces three times magnified (enlarged) real image
of an object placed at 10 cm in front of it. Where is the image located?
(ii) The magnification produced by a plane mirror is +1. What does this
mean?
(iii) An object is placed at a distance of 10 cm from a convex mirror of focal
length 15 cm. Find the position and nature of the image.
(iv) Define the principal focus of a concave mirror.
13. Study the given ray diagrams and select the correct statement from the
following:
X
Y

20 cm Screen Screen
25 cm

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(A) Device X is a concave mirror and device Y is a convex lens, whose
focal lengths are 20 cm and 25 cm respectively.
(B) Device X is a convex lens and device Y is a concave mirror, whose focal
lengths are 10 cm and 25 cm respectively.
(C) Device X is a concave lens and device Y is a convex mirror, whose focal
lengths are 20 cm and 25 cm respectively.
(D) Device X is a convex lens and device Y is a concave mirror, whose focal
lengths are 20 cm and 25 cm respectively. (CBSE 2017)
14. A student obtains a blurred image of distant object on a screen using a
convex lens. To obtain a distinct image on the screen he should move the
lens.
(A) away from the screen
(B) towards the screen
(C) to a position very far away from the screen
(D) either towards or away from the screen depending upon the position of
the object. (CBSE 2017)
15. Assertion (A): The bottom of a tank or pond, filled with water appears to be
raised.
Reason (R): The apparent depth of the tank is given by 1/n times the original
depth.
(a) (A) is incorrect and (R) is correct.
(b) (A) is correct and (R) is incorrect.
(c) Both (A) and (R) are correct but (R) is not the correct explanation of
(A).
(d) Both (A) and (R) are correct but (R) is the correct explanation of (A).
16. Assertion (A): The shaving mirrors are convex mirrors.
Reason (R): Convex mirror always forms a virtual image.
(a) (A) is incorrect and (R) is correct.
(b) (A) is correct and (R) is incorrect.
(c) Both (A) and (R) are correct but (R) is not the correct explanation of
(A).
(d) Both (A) and (R) are correct but (R) is the correct explanation of (A).

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3 Marker Questions

slowest and why?

5.

6.

7. If the image formed by a spherical mirror for all positions of the object placed in front
of it is always erect and diminished, what type of mirror is it? Draw a labelled ray
diagram to support your answer. (CBSE 2018)
8. State the laws of refraction of light. Explain the term 'absolute refractive index of a
medium' and write an expression to relate it with the speed of light in vacuum.
(CBSE 2018)
9. What is meant by power of a lens? Write its SI unit. A student uses a lens of focal
length 40 cm and another of –20 cm. Write the nature and power of each lens.
(CBSE 2018)
10. An object is placed at a distance of 15 cm from a concave lens of focal length 30 cm.
List four characteristic (nature, position, etc.) of the image formed by the lens.
(CBSE 2017)
11. "A lens can form a magnified erect image as well as magnified inverted image of an
object placed in front of it". Same the nature of this lens and draw ray diagrams to
justify the above statement.
Mark the position of O, F and 2F in the diagram. (2017)
12. The refractive indices of glass and water with respect to air are 3/2 and 4/3
respectively. If speed of light in glass is 2 × 108 m/s, find the speed of light in water.
(CBSE 2016)

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5 Marker Questions
1.

2.

3.

4.

5. Analysis the following observation table showing variation of image


distance (v) with object distance (u) in case of a convex lens and answer the
questions that follow without doing any calculation:

S. No. Object Distance-u(cm) Image Distance-v(cm)


1. -100 +25
2. -60 +30
3. -40 +40
4. -30 +60
5. -25 +100
6. -15 +120

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a) What is the focal length of the convex lens? Give reason to justify your
answer.
b) Write the serial number of the observation which is not correct. On what
basis have you arrived at this conclusion?
c) Select an approximate scale and draw a ray diagram for the observation at S.
No. 2 Also find the approximate value of magnification.
6. (a) If the image formed by a mirror for all position of the object placed in
front of it is always diminished, erect and virtual, state the type of the mirror
and also draw a ray diagram to justify your answer. Write one use such
mirrors are put to and why.
b) Define the radius of curvature of spherical mirror. Find the nature and
focal length of a spherical mirror whose radius of curvature is +24 cm.

3.

4.

6.

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