Adjacent figure shows the force-displacement graph of a moving body, the work done in displacing body from x = 0 to x = 35 m is equal to-
(1) 50 J
(2) 25 J
(3) 287.5 J
(4) 200 J
A 10kg mass moves along x-axis. Its acceleration as a function of its position is shown in the figure. What is the total work done on the mass by the force as the mass moves from x = 0 to x = 8 cm ?
(1) 8 × 10–2 joules
(2) 16 × 10–2 joules
(3) 4 × 10–4 joules
(4) 1.6 × 10–3 joules
A toy car of mass 5 kg moves up a ramp under the influence of force F plotted against displacement x. The maximum height attained is given by
1. ymax = 20 m
2. ymax = 15 m
3. ymax = 11 m
4. ymax = 5 m
The graph between the resistive force \(F\) acting on a body and the distance covered by the body is shown in the figure. The mass of the body is \(25\) kg and the initial velocity is \(2\) m/s. When the distance covered by the body is \(4\) m, its kinetic energy would be:
1. \(50\) J
2. \(40\) J
3. \(20\) J
4. \(10\) J
A particle of mass 0.1 kg is subjected to a force which varies with distance as shown in fig. If it starts its journey from rest at x = 0 , its velocity at x = 12 m is
(1) 0 m/s
(2)
(3)
(4) 40 m/s
The relation between the displacement \(X\) of an object produced by the application of the variable force \(F\) is represented by a graph (as shown in the figure below). If the object undergoes a displacement from \(X=0.5\) m to \(X=2.5\) m the work done will be approximately equal to:
1. 16 J
2. 32 J
3. 1.6 J
4. 8 J
A particle is given a constant horizontal velocity from height h. Taking g to be constant every where, kinetic energy E of the particle w. r. t. time t is correctly shown in
(1)
(2)
(3)
(4)
The adjoining diagram shows the velocity versus time plot for a particle. The work done by the force on the particle is positive from
(1) A to B
(2) B to C
(3) C to D
(4) D to E
A particle which is constrained to move along the x-axis, is subjected to a force in the same direction which varies with the distance x of the particle from the origin as . Here k and a are positive constants. For , the functional form of the potential energy U(x) of the particle is-
(1)
(2)
(3)
(4)
A force F acting on an object varies with distance x as shown here. The force is in newton and x in metre. The work done by the force in moving the object from x = 0 to x = 6 m is
(1) 4.5 J
(2) 13.5 J
(3) 9.0 J
(4) 18.0 J