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Ray Optics and Optical Instruments Practice Questions - DPP for JEE
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Page 1
1. (a) From mirror formula
so,
?
? m/s
2. (a) We have,
or
or
or
or .
3. (b) f
0
= 100 cm, f
e
= 5 cm
When final image is formed at least distance of distinct vision (d), then
Page 2
1. (a) From mirror formula
so,
?
? m/s
2. (a) We have,
or
or
or
or .
3. (b) f
0
= 100 cm, f
e
= 5 cm
When final image is formed at least distance of distinct vision (d), then
M = [ Q D = 25 cm]
M =
4. (c) I
1
is the image of object O formed by the lens.
; u
1
= – 15, f
1
= 10
Solving we get, v
1
= 30 cm.
I
1
acts as source for mirror
? u
2
= – (45 – v
1
) = – 15 cm.
I
2
is the image formed by the mirror
?
? v
2
= –30cm
The height of I
2
above principal axis of lens is
=
I
2
acts as a source for lens, u
3
= –(45 – v
2
) = –15 cm.
Hence, the lens forms an image I
3
at a distance v
3
= 30 cm to the left of
lens.
The height of I
3
below the principal axis of lens
Page 3
1. (a) From mirror formula
so,
?
? m/s
2. (a) We have,
or
or
or
or .
3. (b) f
0
= 100 cm, f
e
= 5 cm
When final image is formed at least distance of distinct vision (d), then
M = [ Q D = 25 cm]
M =
4. (c) I
1
is the image of object O formed by the lens.
; u
1
= – 15, f
1
= 10
Solving we get, v
1
= 30 cm.
I
1
acts as source for mirror
? u
2
= – (45 – v
1
) = – 15 cm.
I
2
is the image formed by the mirror
?
? v
2
= –30cm
The height of I
2
above principal axis of lens is
=
I
2
acts as a source for lens, u
3
= –(45 – v
2
) = –15 cm.
Hence, the lens forms an image I
3
at a distance v
3
= 30 cm to the left of
lens.
The height of I
3
below the principal axis of lens
=
? Required distance =
5. (d) The focal length of the lens
Shift =
=
Now v’ =
Now the object be distance u'.
u' = –7 ×16 × 5 = – 560 cm = – 5.6 m
6. (c)
Applying Snell’s law at Q
Page 4
1. (a) From mirror formula
so,
?
? m/s
2. (a) We have,
or
or
or
or .
3. (b) f
0
= 100 cm, f
e
= 5 cm
When final image is formed at least distance of distinct vision (d), then
M = [ Q D = 25 cm]
M =
4. (c) I
1
is the image of object O formed by the lens.
; u
1
= – 15, f
1
= 10
Solving we get, v
1
= 30 cm.
I
1
acts as source for mirror
? u
2
= – (45 – v
1
) = – 15 cm.
I
2
is the image formed by the mirror
?
? v
2
= –30cm
The height of I
2
above principal axis of lens is
=
I
2
acts as a source for lens, u
3
= –(45 – v
2
) = –15 cm.
Hence, the lens forms an image I
3
at a distance v
3
= 30 cm to the left of
lens.
The height of I
3
below the principal axis of lens
=
? Required distance =
5. (d) The focal length of the lens
Shift =
=
Now v’ =
Now the object be distance u'.
u' = –7 ×16 × 5 = – 560 cm = – 5.6 m
6. (c)
Applying Snell’s law at Q
...(1)
Applying Snell’s Law at P
; from (1)
or
7. (b) From the fig.
Angle of deviation,
Here, e = i
and
?
For equilateral prism, A = 60°
?
8. (a) For point A,
For point B, sin (90° – r) =
g
µ
a
?
where,
(90° – r) is critical angle.
Page 5
1. (a) From mirror formula
so,
?
? m/s
2. (a) We have,
or
or
or
or .
3. (b) f
0
= 100 cm, f
e
= 5 cm
When final image is formed at least distance of distinct vision (d), then
M = [ Q D = 25 cm]
M =
4. (c) I
1
is the image of object O formed by the lens.
; u
1
= – 15, f
1
= 10
Solving we get, v
1
= 30 cm.
I
1
acts as source for mirror
? u
2
= – (45 – v
1
) = – 15 cm.
I
2
is the image formed by the mirror
?
? v
2
= –30cm
The height of I
2
above principal axis of lens is
=
I
2
acts as a source for lens, u
3
= –(45 – v
2
) = –15 cm.
Hence, the lens forms an image I
3
at a distance v
3
= 30 cm to the left of
lens.
The height of I
3
below the principal axis of lens
=
? Required distance =
5. (d) The focal length of the lens
Shift =
=
Now v’ =
Now the object be distance u'.
u' = –7 ×16 × 5 = – 560 cm = – 5.6 m
6. (c)
Applying Snell’s law at Q
...(1)
Applying Snell’s Law at P
; from (1)
or
7. (b) From the fig.
Angle of deviation,
Here, e = i
and
?
For equilateral prism, A = 60°
?
8. (a) For point A,
For point B, sin (90° – r) =
g
µ
a
?
where,
(90° – r) is critical angle.
?
=
9. (b) u = –50 cm = –0.5 m
v = –30 cm = –0.3 m
.
10. (b) For the image of point P to be seen by the observer, it should be
formed at point Q.
In ?QNS,
NS = QS = 2h
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Nov 23, 2024 Last updated |
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