In the figure shown the potential energy U of a particle is plotted its position 'x' from origin. Then which of the following statement is correct A particle at :

In the fig. The potential energy U of a particle plotted against its position x from origin. Which of the following statement is correct

Potential energy of a particle at position x is given by U=x^(2)-5x . Which of the following is equilibrium position of the particle?

Figure shows a plot of the potential energy as a function of x for a particle moving along the x-axis. Which of the following statement(s) is/are true?

Potential energy U(r ) varies with position r as shown in figure Which of the following conclusions are correct?

Potential energy of a particle at position x is given by U = (x^2 - 4x) J . Which of the following is equilibrium position of the particle?

The potential energy of a particle (U_(x)) executing SHM is given by

Potential Energy U(x) and associated force F(x) bears the relation F(x)=-(d)/(dx)U(x) . Dependence of potential energy of a two - particle system separation x between them is shown in the following figure. Which of the following graphs shows correct variation in assoicated force F(x) with x ?

A graph between kinetic energy and momentum of a particle is plotted as shown in the figure. The mass of the moving particle is :

Figure shows the velocity of a particle moving on x-axis. Which of the following statement is correct for the interval shown in graph?

A particle is constrained to move along x axis under the action of a conservative force. The potential energy of the particle varies with position x as shown in the figure. When the particle is at x = x0, it is given a kinetic energy (k) such that 0 lt k lt 4U0 (a) Does the particle ever reach the origin? (b) Qualitatively describe the motion of the particle