An electron goes from one equi-potential surface another along one of the four paths shown in diagram. Rank the paths according to the work by the electrostatic force from the least to greatest.

The figure here five paths traversed by a gas on a p-V diagram .Rank the paths according to the change in internal energy of the gas , greatest first .

As a particle moves along the x- axis, it is acted upon by a conservative force. The potential energy is shown below as a function of the coordinate x of the particle. Rank the labelled regions accoeording to the magnitude of force, least to greatest.

As a particle moves along the x- axis, it is acted upon by a conservative force. The potential energy is shown below as a function of the coordinate x of the particle. Rank the labelled regions accoeording to the magnitude of force, least to greatest.

As a particle moves along the x- axis, it is acted upon by a conservative force. The potential energy is shown below as a function of the coordinate x of the particle. Rank the labelled regions accoeording to the magnitude of force, least to greatest.

Rank the value of ointvec(B)vec(dl) for the closed paths shown in figure from the smallest to largest.

Rank the value of ointvec(B)vec(dl) for the closed paths shown in figure from the smallest to largest.

Rank the value of ointvec(B)vec(dl) for the closed paths shown in figure from the smallest to largest.

Three particles, two with mass m and one with mass M, might be arranged in any of Rank the configuration according of the gravitational force on M, least to greatest.

Three particles, two with mass m and one with mass M, might be arranged in any of Rank the configuration according of the gravitational force on M, least to greatest.

Assertion : the net work done by an electrostatic field on a charge whilr moving it from one point to another is independent of path. Reason: the net work done by an electrostatic force on a charge in it moving along a closed loop is zero.