A thin copper wire of length L increase in length by `1%` when heated from temperature `T_(1) "to" T_(2)` What is the percentage change in area when a thin copper plate having dimensions `2LxxL` is heated from `T_(1) "to "T_(2)` ?

A thin copper wire of length l metre increases in length by 2% when heated through 10^(@)C . What is the percentage increase in area when a square copper sheet of length l metre is heated through 10^(@)C

A thin copper wire of length L increase in length by 2 % when heated from T_(1) to T_(2) . If a copper cube having side 10 L is heated from T_(1) to T_(2) when will be the percentage change in (i) area of one face of the cube (ii) volume of the cube

A thin copper wire of length l increases in length by 1% when heated from 0^(@)C to 100^(@)C . If a then copper plate of area 2lxxl is heated from 0^(@)C to 100^(@)C , the percentage increases in its area will be

If percentage change in length is 1% with change in temperature of a cuboid object (l xx 2l xx3l) then what is precentage change in its area and volume.

An ideal gas is heated from termperature T_(1) to T_(2) under various conditions. The correct statements(s) is/are:-

The wire is stretched to increase the length by 1%. Find the percentage change in the resistance.

The length of a steel wire is l_(1) when the stretching force is T_(1) and l_(2) when the stretching force is T_(2) . The natural length of the wire is

In an isobaric process, when temperature changes from T_(1)" to "T_(2), DeltaS is equal to

The coefficient of linear expansion 'alpha ' of the material of a rod of length l_(0) varies with absolute temperature as alpha = aT -bT^(2) where a & b are constant. The linear expansion of the rod when heated from T_(1) to T_(2) = 2T_(1) is :-

What percentage T_(1) is of T_(2) for a 10% efficiency of a heat engine?