141324 Fig (1) and (2) show the displacement time graphs of two particles moving along the \(x\) axis. we can say that.

fig. (2)

141325 If acceleration of a particle at any time is given by
\(a=2 t+5\)
calculate the velocity after \(5 \mathrm{~s}\), if it starts from rest.

141326 The acceleration-time graph of a body is shown below

The most probable velocity-time graph of the body is

1

2

3

4

141327 A body starts from the origin and moves along the \(\mathrm{X}\)-axis such that velocity at any instant is given by \(\left(4 t^{3}-2 t\right)\), where \(t\) is in second and velocity is in \(\mathrm{m} / \mathrm{s}\). What is the acceleration of the particle, when it is \(\mathbf{2} \mathbf{~ m}\) from the origin?

141324 Fig (1) and (2) show the displacement time graphs of two particles moving along the \(x\) axis. we can say that.

fig. (2)

141325 If acceleration of a particle at any time is given by
\(a=2 t+5\)
calculate the velocity after \(5 \mathrm{~s}\), if it starts from rest.

141326 The acceleration-time graph of a body is shown below

The most probable velocity-time graph of the body is

1

2

3

4

141327 A body starts from the origin and moves along the \(\mathrm{X}\)-axis such that velocity at any instant is given by \(\left(4 t^{3}-2 t\right)\), where \(t\) is in second and velocity is in \(\mathrm{m} / \mathrm{s}\). What is the acceleration of the particle, when it is \(\mathbf{2} \mathbf{~ m}\) from the origin?

141324 Fig (1) and (2) show the displacement time graphs of two particles moving along the \(x\) axis. we can say that.

fig. (2)

141325 If acceleration of a particle at any time is given by
\(a=2 t+5\)
calculate the velocity after \(5 \mathrm{~s}\), if it starts from rest.

141326 The acceleration-time graph of a body is shown below

The most probable velocity-time graph of the body is

1

2

3

4

141327 A body starts from the origin and moves along the \(\mathrm{X}\)-axis such that velocity at any instant is given by \(\left(4 t^{3}-2 t\right)\), where \(t\) is in second and velocity is in \(\mathrm{m} / \mathrm{s}\). What is the acceleration of the particle, when it is \(\mathbf{2} \mathbf{~ m}\) from the origin?

141324 Fig (1) and (2) show the displacement time graphs of two particles moving along the \(x\) axis. we can say that.

fig. (2)

141325 If acceleration of a particle at any time is given by
\(a=2 t+5\)
calculate the velocity after \(5 \mathrm{~s}\), if it starts from rest.

141326 The acceleration-time graph of a body is shown below

The most probable velocity-time graph of the body is

1

2

3

4

141327 A body starts from the origin and moves along the \(\mathrm{X}\)-axis such that velocity at any instant is given by \(\left(4 t^{3}-2 t\right)\), where \(t\) is in second and velocity is in \(\mathrm{m} / \mathrm{s}\). What is the acceleration of the particle, when it is \(\mathbf{2} \mathbf{~ m}\) from the origin?