An air bubble of volume `1.0 cm^(3)` rises from the bottom of a lake 40m deep at a temperature of `12^(@)C`. To what volume does it grow when it reaches the surface, which is at a temperature of `35^(@)C` ?

An air bubble rises from the bottom of a water tank of height 5 m. If the initial volume of the bubble is 3" mm"^(3) , then what will be its volume as it reaches the surface? Assume that its temperature does not change. [g=9.8m//s^(2),1" atm "=10^(5)” Pa, density of water"=1" gm"//"cc"]

The increase in volume of the bubble as it rises from the bottom of the beaker with water at constant temperature is due to

An air bubble comes from the bottom to the surface of a lake of depth 2.5 m. The surface temperature of the lake is 40^(@)C . The diameter of the bubble at the bottom and at the surface are 3.6 mm and 4 mm respectively. Find the temperature of the lake at the bottom.