When a system is taken from state I to state f along path iaf in fig - 21.23 Q = 100 cal and W = 40 cal Along path ibf Q = 72 cal . (a) what is W along path ibf ?

When a system is taken from state i to state f alone the path iaf, it is found that Q=50 cal and W=20 cal. Along the path ibf, Q=36 cal (figure) (a) What is W along the path ibf ? (b) If W=-13 cal for the curved return path f i , what is Q for this path ? (c) Take U_(i)=10 cal. What is U_(f) ? (d) If U_(b)=22 cal, what is Q for the process in and for the process bf ?

When a system is taken from state i to state f along the path iaf, it is found that Q=50 cal and W=20 cal . Along the path ibf Q=36cal . W along the path ibf is

When a system is taken from state 1 to 2 along the path 1 a 2 it absorbs 50 cal of heat and work done is 20 cal . Along tha path 1 b 2 . Q = 36 cal . What is the work done along 1 b 2 ?

When a system is taken from a state i to a state f in Figure, along the path iaf , we find DeltaQ=50cal and DeltaW=20cal while during the path ibf , DeltaQ=36cal . If U_i=10cal . (a) What is U? What is W along the path ibf ? (c ) If W=-13cal , along the curved path fi , what is DeltaQ for this path? (d) If U_b=22cal , what is DeltaQ for the process ib ? for bf ?

When a system is taken from state f along path iaf, Q = 50 J and W = 20 J . Along path ibf, Q = 35 J . If W = -13 J for the curved return path f I, Q for this path is

When a system is taken from state 'a' to state 'b' along the path 'acb', it is found that a quantity of heat Q = 200 J is absorbed by the system and a work W = 80 J is done by it. Along the path 'adb', Q = 144 J In the above question, if U_(d)=88J , heat absorbed for the path 'db' is

When a system is taken from state 'a' to state 'b' along the path 'acb', it is found that a quantity of heat Q = 200 J is absorbed by the system and a work W = 80 J is done by it. Along the path 'adb', Q = 144 J In above question, if U_(a)=40J , value of U_(b) will be