The work done in moving a particle in the gravitational field of earth from point A to point B along three different paths 1,2 and 3 are `W_(1) , W_(2)` and `W_(3)` respectively , then

The weight of an object in the coal mine, sea level and at the top of the mountain are W_(1),W_(2) and W_(3) respectively, then

If W_(1) W_(2) and W_(3) represent the work done in moving a particle from A to B along three different paths 1.2 and 3 respectively (asshown ) in the gravitational fieled of a point mass m, find the correct relation between W_(1) W_(2) and W_(3)

If W_(1) W_(2) and W_(3) represent the work done in moving a particle from A to B along three different paths 1.2 and 3 respectively (asshown ) in the gravitational fieled of a point mass m, find the correct relation between W_(1) W_(2) and W_(3)

A given mass of a gas expands from the state A to the state B by three paths 1,2 and 3 as shown in the figure, If W_(1),W_(2) and W_(3) respectively be the work done by the gas along the three paths then

A givne mass of a gas expands from a state A to the state B by three paths 1, 2 and 3 as shown in T-V indicator diagram. If W_(1),W_(2) and W_(3) respectively be the work done by the gas along the three paths, then

W_(1),W_(2) and W_(3) are the different sizes of windows 1, 2, and 3 respectively placed in a vertical plane. A particle is thrown up in the vertical plane. Let t_(1),t_(2) and t_(3) are the time taken to cross the window W_(1), W_(2) and W_(3) respectively and DeltaV_(1), DeltaV_(2) and DeltaV_(3) are the change in speed after respective window cross.

A thermodynamic system is taken from an initial state I with internal energy U_i=-100J to the final state f along two different paths iaf and ibf, as schematically shown in the figure. The work done by the system along the pat af, ib and bf are W_(af)=200J, W_(ib)=50J and W_(bf)=100J respectively. The heat supplied to the system along the path iaf, ib and bf are Q_(iaf), Q_(ib),Q_(bf) respectively. If the internal energy of the system in the state b is U_b=200J and Q_(iaf)=500J , The ratio (Q_(bf))/(Q_(ib)) is

A gas expands from i to f along the three paths indicated. The work done along the three paths denoted by W_1, W_2 and W_3 have the relationship

The work done in taking a unit positive charge from P to A is W_A and P to B is W_B . Then .

A given mass of gas expands from state A to state B by three paths 1,2 , and 3 as shown in the figure below. If w_(1),w_(2) and w_(3) , respectively, be the work done by the gas along three paths, then