160808
Assertion. The maximum speed at which a car can turn on a level curve of radius is . The coefficient of friction must be 0.3 . Reason.
1 Both and are true and is the correct explanation of .
2 Both and are true but is not the correct explanation of .
3 is true but is false.
4 is false but is true.
Explanation:
Both and are true and is the correct explanation of .
NCERT-105
2 RBTS PAPER
160809
A ship of mass initially at rest is pulled by a force of through a distance of . Assuming that the resistance due to water is negligible, what will be the speed of the ship?
1
2
3
4
Explanation:
Mass of the ship Force acting on the ship Thus acceleration of ship Distance covered by the ship Initial speed of the ship Using (by equation of motion) or or
NCERT-I-96
2 RBTS PAPER
160810
A body whose mass is acted upon by two forces and . The acceleration produced will be :
1
2
3
4
Explanation:
NCERT-I-95
2 RBTS PAPER
160811
A body is moving in a circular path with a constant speed. It has
1 a constant velocity
2 a constant acceleration
3 an acceleration of constant magnitude
4 an acceleration whose magnitude varies with time
Explanation:
An acceleration of constant magnitude direction will change.
NCERT- 104
2 RBTS PAPER
160812
In the figure given below the position time graph of a particle of mass is shown. The impulse at sec is
160808
Assertion. The maximum speed at which a car can turn on a level curve of radius is . The coefficient of friction must be 0.3 . Reason.
1 Both and are true and is the correct explanation of .
2 Both and are true but is not the correct explanation of .
3 is true but is false.
4 is false but is true.
Explanation:
Both and are true and is the correct explanation of .
NCERT-105
2 RBTS PAPER
160809
A ship of mass initially at rest is pulled by a force of through a distance of . Assuming that the resistance due to water is negligible, what will be the speed of the ship?
1
2
3
4
Explanation:
Mass of the ship Force acting on the ship Thus acceleration of ship Distance covered by the ship Initial speed of the ship Using (by equation of motion) or or
NCERT-I-96
2 RBTS PAPER
160810
A body whose mass is acted upon by two forces and . The acceleration produced will be :
1
2
3
4
Explanation:
NCERT-I-95
2 RBTS PAPER
160811
A body is moving in a circular path with a constant speed. It has
1 a constant velocity
2 a constant acceleration
3 an acceleration of constant magnitude
4 an acceleration whose magnitude varies with time
Explanation:
An acceleration of constant magnitude direction will change.
NCERT- 104
2 RBTS PAPER
160812
In the figure given below the position time graph of a particle of mass is shown. The impulse at sec is
NEET Test Series from KOTA - 10 Papers In MS WORD
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2 RBTS PAPER
160808
Assertion. The maximum speed at which a car can turn on a level curve of radius is . The coefficient of friction must be 0.3 . Reason.
1 Both and are true and is the correct explanation of .
2 Both and are true but is not the correct explanation of .
3 is true but is false.
4 is false but is true.
Explanation:
Both and are true and is the correct explanation of .
NCERT-105
2 RBTS PAPER
160809
A ship of mass initially at rest is pulled by a force of through a distance of . Assuming that the resistance due to water is negligible, what will be the speed of the ship?
1
2
3
4
Explanation:
Mass of the ship Force acting on the ship Thus acceleration of ship Distance covered by the ship Initial speed of the ship Using (by equation of motion) or or
NCERT-I-96
2 RBTS PAPER
160810
A body whose mass is acted upon by two forces and . The acceleration produced will be :
1
2
3
4
Explanation:
NCERT-I-95
2 RBTS PAPER
160811
A body is moving in a circular path with a constant speed. It has
1 a constant velocity
2 a constant acceleration
3 an acceleration of constant magnitude
4 an acceleration whose magnitude varies with time
Explanation:
An acceleration of constant magnitude direction will change.
NCERT- 104
2 RBTS PAPER
160812
In the figure given below the position time graph of a particle of mass is shown. The impulse at sec is
160808
Assertion. The maximum speed at which a car can turn on a level curve of radius is . The coefficient of friction must be 0.3 . Reason.
1 Both and are true and is the correct explanation of .
2 Both and are true but is not the correct explanation of .
3 is true but is false.
4 is false but is true.
Explanation:
Both and are true and is the correct explanation of .
NCERT-105
2 RBTS PAPER
160809
A ship of mass initially at rest is pulled by a force of through a distance of . Assuming that the resistance due to water is negligible, what will be the speed of the ship?
1
2
3
4
Explanation:
Mass of the ship Force acting on the ship Thus acceleration of ship Distance covered by the ship Initial speed of the ship Using (by equation of motion) or or
NCERT-I-96
2 RBTS PAPER
160810
A body whose mass is acted upon by two forces and . The acceleration produced will be :
1
2
3
4
Explanation:
NCERT-I-95
2 RBTS PAPER
160811
A body is moving in a circular path with a constant speed. It has
1 a constant velocity
2 a constant acceleration
3 an acceleration of constant magnitude
4 an acceleration whose magnitude varies with time
Explanation:
An acceleration of constant magnitude direction will change.
NCERT- 104
2 RBTS PAPER
160812
In the figure given below the position time graph of a particle of mass is shown. The impulse at sec is
160808
Assertion. The maximum speed at which a car can turn on a level curve of radius is . The coefficient of friction must be 0.3 . Reason.
1 Both and are true and is the correct explanation of .
2 Both and are true but is not the correct explanation of .
3 is true but is false.
4 is false but is true.
Explanation:
Both and are true and is the correct explanation of .
NCERT-105
2 RBTS PAPER
160809
A ship of mass initially at rest is pulled by a force of through a distance of . Assuming that the resistance due to water is negligible, what will be the speed of the ship?
1
2
3
4
Explanation:
Mass of the ship Force acting on the ship Thus acceleration of ship Distance covered by the ship Initial speed of the ship Using (by equation of motion) or or
NCERT-I-96
2 RBTS PAPER
160810
A body whose mass is acted upon by two forces and . The acceleration produced will be :
1
2
3
4
Explanation:
NCERT-I-95
2 RBTS PAPER
160811
A body is moving in a circular path with a constant speed. It has
1 a constant velocity
2 a constant acceleration
3 an acceleration of constant magnitude
4 an acceleration whose magnitude varies with time
Explanation:
An acceleration of constant magnitude direction will change.
NCERT- 104
2 RBTS PAPER
160812
In the figure given below the position time graph of a particle of mass is shown. The impulse at sec is