363532 The mass of the lift is \(100\;kg\) which is hanging on the string. The tension in the string, when the lift is moving with constant velocity, is \({\left( {g = 9.8\;m{\rm{/}}{{\sec }^2}} \right)}\)

363533 A force produces an acceleration of \({a_1}\) in a body and the same force produces an acceleration of \({a_2}\) in another body. If the two bodies are combined and the same force is applied on the combination, the acceleration produced in it is

363534 The resultant of two forces acting at an angle of \(120^\circ \) is 10 \(kg\) \(wt\) and is perpendicular to one of the forces. That force is

363535 A body of mass 4 \(kg\) is accelerated upon by a constant force, travels a distance of 5 \(m\) in the first second and a distance of 2 \(m\) in the third second. The force acting on the body is

363532 The mass of the lift is \(100\;kg\) which is hanging on the string. The tension in the string, when the lift is moving with constant velocity, is \({\left( {g = 9.8\;m{\rm{/}}{{\sec }^2}} \right)}\)

363533 A force produces an acceleration of \({a_1}\) in a body and the same force produces an acceleration of \({a_2}\) in another body. If the two bodies are combined and the same force is applied on the combination, the acceleration produced in it is

363534 The resultant of two forces acting at an angle of \(120^\circ \) is 10 \(kg\) \(wt\) and is perpendicular to one of the forces. That force is

363535 A body of mass 4 \(kg\) is accelerated upon by a constant force, travels a distance of 5 \(m\) in the first second and a distance of 2 \(m\) in the third second. The force acting on the body is

363532 The mass of the lift is \(100\;kg\) which is hanging on the string. The tension in the string, when the lift is moving with constant velocity, is \({\left( {g = 9.8\;m{\rm{/}}{{\sec }^2}} \right)}\)

363533 A force produces an acceleration of \({a_1}\) in a body and the same force produces an acceleration of \({a_2}\) in another body. If the two bodies are combined and the same force is applied on the combination, the acceleration produced in it is

363534 The resultant of two forces acting at an angle of \(120^\circ \) is 10 \(kg\) \(wt\) and is perpendicular to one of the forces. That force is

363535 A body of mass 4 \(kg\) is accelerated upon by a constant force, travels a distance of 5 \(m\) in the first second and a distance of 2 \(m\) in the third second. The force acting on the body is

363532 The mass of the lift is \(100\;kg\) which is hanging on the string. The tension in the string, when the lift is moving with constant velocity, is \({\left( {g = 9.8\;m{\rm{/}}{{\sec }^2}} \right)}\)

363533 A force produces an acceleration of \({a_1}\) in a body and the same force produces an acceleration of \({a_2}\) in another body. If the two bodies are combined and the same force is applied on the combination, the acceleration produced in it is

363534 The resultant of two forces acting at an angle of \(120^\circ \) is 10 \(kg\) \(wt\) and is perpendicular to one of the forces. That force is

363535 A body of mass 4 \(kg\) is accelerated upon by a constant force, travels a distance of 5 \(m\) in the first second and a distance of 2 \(m\) in the third second. The force acting on the body is