Density vs volume graph is shown in the figure . Find corresponding pressure vs temperature graph :

Pressure versus temperature graph of an ideal gas at constant volume V is shown by the straight line A. Now mass of the has is doubled and the volume is halved, then the corresponding pressure versus temperature graph will be shown by the line

The velocity time graph for a particle moving along x-axis is shown in the figure. The corresponding displacement time graph is correctly shown by

The velocity time graph for a particle moving along X-axis is shown in the figure. The corresponding displacement time graph is correctly shown by

The velocity-time graph for a particle moving along X-axis is shown in the figure. The corresponding displacement-time graph is correctly shown by

Pressure temperature (p-1) graph of n moles of an ideal gas is shown in the figure. Among the following four graphs, which are the corresponding pressure volume (p-V) and density pressure (p-p) graphs?

The graph shown in figure is exponential. Write down the equation corresponding to the graph.

Acceleration vs time graph is shown in the figure for a particle moving along a straight line. The particle is initially at rest. Find the time instant(s) when the particle comes to rest?

Pressure versus temperature graph of an ideal gas as shown in Fig. Corresponding density (rho) versus volume (V) graph will be

Explain the following temperature Vs. time graph:

The potential energy ‘V’ of a particle moving along the positive x-direction in a conservative force field varies as shown in the figure. The total energy is E=2. Draw the corresponding kinetic energy K vs x graph.