An air bubble of volume `1.0 cm^(3)` rises from the bottom of a lake 40 m 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` ?

A spherical air bubbles is rising from the depth of a lake when pressure is P atm and temperature is T K what is the percentage increase in its radius when it comes to the surface of a lake. (Assume : temperature and pressure at the surface to be respectively 2T K and P/4 )

An air bubble of diameter 1cm is formed at a depth of 238ft in a lake. What will be the diameter (in cm) of the bubble when it reaches the free surface? Given that the temperature from top to bottom in the lake is same and the height of a water barometer is 34 ft.

An air bubble of volume 20cm^3 forms in a lake at a depth of 40 m below the water surface.What will be its volume when it rises just below the water surface?(Standard atmospheric pressure=76 cmHg)

An air bubble floats up on the surface of water from the bottom of a river of depth 34 m. At the bottom the temperature of water is 7^@C and the volume of the bubble is 14 cm^3 Temperature on the surface of the water is 27^@C and the pressure is 75 cmHg. IF the density of mercury is 13.6 g.cm^-3 them what will be the volume of the bubble on the surface of water?

An air bubble starts rising from the bottom of a lake. Its diameter is 3.6 mm at the bottom and 4mm at the surface. The depth of the lake is 250 cm and the temperature at the surface is 40^@C . The atmospheric pressure is 76 cm of Hg and g=980 cm.s^-2 . What is the temperature at the bottom of the lake?

An air bubble starts rising from the bottom of a lake. Its diameter is 3.6 mm at the bottom and 4mm at the surface. The depth of the lake is 250 cm and the temperature at the surface is 40^@C . The atmospheric pressure is 76 cm of Hg and g=980 cm.s^-2 . What is the pressure at the bottom of the lake?

A bubble of gas released at the bottom of a lake increases to eight times its original volume when it reaches the surface. Assuming that atmospheric pressure is equivalent to the pressure exerted by a column of water, 10 m height, the depth of the lake is correct 80 M 90 M 40 m 10 m 70 m

An air bubble of diameter 1 mm is formed at the bottom of a lake and when it rises to the surface of the water, its diameter becomes 2 mm. If the atmospheric pressure is 760 cm of mercury, then find the depth of the lake. (Density of mercury = 13.6g*cm^(-3) )

When an air bubble rises from the bottom of a lake to the surface,its radius is doubled. Atmospheric pressure is equal to the pressure of a water column of height H. Depth of the lake is