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Motion in a Plane Practice Questions - DPP for JEE
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Page 1
1. (b) ,
? AB sin ? = v3 AB cos ?
or, tan ? = v3, ? ? = 60º
2. (b)
?
3. (c) Clearly
=
4. (c) Using the law of vector addition, is as shown in the fig.
Page 2
1. (b) ,
? AB sin ? = v3 AB cos ?
or, tan ? = v3, ? ? = 60º
2. (b)
?
3. (c) Clearly
=
4. (c) Using the law of vector addition, is as shown in the fig.
5. (b)
The velocity of first particle, v
1
= v
The velocity of second particle, v
2
= at
Relative velocity,
or
For least value of relative velocity,
or
or 0 + a
2
× 2t – 2vacos a = 0
or
6. (d)
R = 10 cos 30° t – g sin 30° t
2
= =
7. (c) = 1 cm/s. Centripetal acceleration is directed towards the
centre. Its magnitude = 1. Unit vector at the mid point on the path
between P and Q is .
8. (b) Two vectors are
=
Page 3
1. (b) ,
? AB sin ? = v3 AB cos ?
or, tan ? = v3, ? ? = 60º
2. (b)
?
3. (c) Clearly
=
4. (c) Using the law of vector addition, is as shown in the fig.
5. (b)
The velocity of first particle, v
1
= v
The velocity of second particle, v
2
= at
Relative velocity,
or
For least value of relative velocity,
or
or 0 + a
2
× 2t – 2vacos a = 0
or
6. (d)
R = 10 cos 30° t – g sin 30° t
2
= =
7. (c) = 1 cm/s. Centripetal acceleration is directed towards the
centre. Its magnitude = 1. Unit vector at the mid point on the path
between P and Q is .
8. (b) Two vectors are
=
=
For two vectors and to be orthogonal A.B = 0
= 0 = cos ?t.cos + sin ?t.sin
= cos
So, ? t =
9. (a) due North;
due West. Angle between and
due South
? Change in velocity
The direction of this change in velocity is in South-West.
10. (b)
Comparing with , we get
v
x
= 6ms
–1
and v
y
= 8 ms
–1
Also, = 36 + 64 = 100
or v = 10 ms
–1
Page 4
1. (b) ,
? AB sin ? = v3 AB cos ?
or, tan ? = v3, ? ? = 60º
2. (b)
?
3. (c) Clearly
=
4. (c) Using the law of vector addition, is as shown in the fig.
5. (b)
The velocity of first particle, v
1
= v
The velocity of second particle, v
2
= at
Relative velocity,
or
For least value of relative velocity,
or
or 0 + a
2
× 2t – 2vacos a = 0
or
6. (d)
R = 10 cos 30° t – g sin 30° t
2
= =
7. (c) = 1 cm/s. Centripetal acceleration is directed towards the
centre. Its magnitude = 1. Unit vector at the mid point on the path
between P and Q is .
8. (b) Two vectors are
=
=
For two vectors and to be orthogonal A.B = 0
= 0 = cos ?t.cos + sin ?t.sin
= cos
So, ? t =
9. (a) due North;
due West. Angle between and
due South
? Change in velocity
The direction of this change in velocity is in South-West.
10. (b)
Comparing with , we get
v
x
= 6ms
–1
and v
y
= 8 ms
–1
Also, = 36 + 64 = 100
or v = 10 ms
–1
= 9.6 m
11. (b) y = bx
2
Differentiating w.r.t to t an both sides, we get
v
y
= 2bxv
x
Again differentiating w.r.t to t on both sides we get
[ = 0, because the particle has constant acceleration along y-
direction]
Now,
v
x
=
12. (c)
Since and are perpendicular
?
A
2
= B
2
13. (a) Total area around fountain
Page 5
1. (b) ,
? AB sin ? = v3 AB cos ?
or, tan ? = v3, ? ? = 60º
2. (b)
?
3. (c) Clearly
=
4. (c) Using the law of vector addition, is as shown in the fig.
5. (b)
The velocity of first particle, v
1
= v
The velocity of second particle, v
2
= at
Relative velocity,
or
For least value of relative velocity,
or
or 0 + a
2
× 2t – 2vacos a = 0
or
6. (d)
R = 10 cos 30° t – g sin 30° t
2
= =
7. (c) = 1 cm/s. Centripetal acceleration is directed towards the
centre. Its magnitude = 1. Unit vector at the mid point on the path
between P and Q is .
8. (b) Two vectors are
=
=
For two vectors and to be orthogonal A.B = 0
= 0 = cos ?t.cos + sin ?t.sin
= cos
So, ? t =
9. (a) due North;
due West. Angle between and
due South
? Change in velocity
The direction of this change in velocity is in South-West.
10. (b)
Comparing with , we get
v
x
= 6ms
–1
and v
y
= 8 ms
–1
Also, = 36 + 64 = 100
or v = 10 ms
–1
= 9.6 m
11. (b) y = bx
2
Differentiating w.r.t to t an both sides, we get
v
y
= 2bxv
x
Again differentiating w.r.t to t on both sides we get
[ = 0, because the particle has constant acceleration along y-
direction]
Now,
v
x
=
12. (c)
Since and are perpendicular
?
A
2
= B
2
13. (a) Total area around fountain
Where R
max
=
?
14. (a)
and
15. (a) Distance covered in one circular loop = 2pr
= 2 × 3.14 × 100 = 628 m
Speed
Displacement in one circular loop = 0
Velocity
16. (a)
Now
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