Laws of Motion Test

Result

Laws of Motion Test - 28

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Question 1/10
4 / -1

Fig. shows two blocks A and B pushed against the wall with the force F. The wall is smooth but the surfaces in contact of A and B are rough. Which of the following is true for the system of blocks to be at rest against the wall ?

Correct

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Skipped
A
F should be equal to weight of A and B

Correct

Wrong

Skipped
B
F should be less than the weight of A and B

Correct

Wrong

Skipped
C
F should be more than the weight of A and B

Correct

Wrong

Skipped
D
System cannot be in equilibrium (at rest)
Question 2/10
4 / -1

A cart of mass M has a block of mass m attached to it as shown in fig. The coefficient of friction between the block and the cart is μ. What is the minimum acceleration of the cart so that the block m does not fall ?

Correct

Wrong

Skipped
A
μg

Correct

Wrong

Skipped
B
g/μ

Correct

Wrong

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C
μ/g

Correct

Wrong

Skipped
D
Mgμ/m

Solutions
Question 3/10
4 / -1

A block is kept on a frictionless inclined surface with angle of inclination ‘α’. The incline is given an acceleration ‘α’ to keep the block stationary. Then a is equal to

Correct

Wrong

Skipped
A
g tan α

Correct

Wrong

Skipped
B
g

Correct

Wrong

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C
g cosec α

Correct

Wrong

Skipped
D
g/tan α

Solutions
Question 4/10
4 / -1

Two blocks of masses m₁ = 5 Kg and m₂ = 6 kg are connected by a light string passing over a light frictionless pulley as shown in fig. If the angle of incline is 300 . What is the magnitude and direction of the force of friction on the 5 Kg block (take g = 10 m/s²) which is at rest on the incline

Correct

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Skipped
A
35 N up the plane

Correct

Wrong

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B
35 N down the plane

Correct

Wrong

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C
85 N up the plane

Correct

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D
85 N down the plane

Solutions
Question 5/10
4 / -1

A block of mass m rests on a rough horizontal surface as shown in Fig. Coefficient of friction between the block and the surface is μ. A force F = mg acting at angle θ with the vertical side of the block pulls it. In which of the following cases can the block be pulled along the surface ?

Correct

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A

Correct

Wrong

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B

Correct

Wrong

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C

Correct

Wrong

Skipped
D

Solutions
Question 6/10
4 / -1

A block is dragged on a smooth plane with the help of a rope. Which moves with a velocity v as shown in Fig. The horizontal velocity of block is

Correct

Wrong

Skipped
A
v

Correct

Wrong

Skipped
B
ν sin θ

Correct

Wrong

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C
ν /sin θ

Correct

Wrong

Skipped
D
ν / cos θ

Solutions
Question 7/10
4 / -1

The velocity of a body of mass 20 kg decreases from 20ms^–1 to 5ms^–1 in a distance of 100 m. Force on the body is

Correct

Wrong

Skipped
A
–27.5 N

Correct

Wrong

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B
–47.5 N

Correct

Wrong

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C
–37.5 N

Correct

Wrong

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D
–67.5 N

Solutions
Question 8/10
4 / -1

A ball of mass 0.2 kg is thrown vertically upwards by applying a force by hand. If the hand moves 0.2 m while applying the force and the ball goes upto 2 m height further, find the magnitude of the force. (Consider g = 10 ms^–2)

Correct

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Skipped
A
16 N

Correct

Wrong

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B
20 N

Correct

Wrong

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C
22 N

Correct

Wrong

Skipped
D
4 N

Solutions
Question 9/10
4 / -1

Formula for true force is

Correct

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A

Correct

Wrong

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B

Correct

Wrong

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C

Correct

Wrong

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D
Question 10/10
4 / -1

Correct

Wrong

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A
0^o

Correct

Wrong

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B
30^o

Correct

Wrong

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C
45^o

Correct

Wrong

Skipped
D
90^o

Solutions

Question 1/10

F should be equal to weight of A and B

F should be less than the weight of A and B

F should be more than the weight of A and B

System cannot be in equilibrium (at rest)

Question 2/10

μg

g/μ

μ/g

Mgμ/m

Question 3/10

g tan α

g

g cosec α

g/tan α

Question 4/10

35 N up the plane

35 N down the plane

85 N up the plane

85 N down the plane

Question 5/10

Question 6/10

v

ν sin θ

ν /sin θ

ν / cos θ

Question 7/10

–27.5 N

–47.5 N

–37.5 N

–67.5 N

Question 8/10

16 N

20 N

22 N

4 N

Question 9/10

Question 10/10

0o

30o

45o

90o

0^o

30^o

45^o

90^o