An air bubble of volume `1.0cm^(3)` rises from the cottom 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 of a temperature of `35^(@)C` ?

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 . ? Given 1 atm = 1.01 xx 10^(5) Pa .

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 . ? Given 1 atm = 1.01 xx 10^(5) Pa .

An air bubble of 20 cm^3 volume is at the bottom of a lake 40 m deep where the temperature is 4^@ C . The bubble rises to the surface which is at a temperature of 20 ^@ C . Take the temperature to be the same as that of the surrounding water and find its volume just before it reaches the surface.

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

A small bubble rises from the bottom of a lake, where the temperature and pressure are 8^(@)C and 6.0 atm , to the water's surface, where the temperature is 25^(@)C and pressure is 1.0 atm . Calculate the final volume of the bubble if its initial volume was 2mL .

An air bubble has a radius of 0.50 cm at the bottom of a water tank where the temperature is 280 K and the pressure is 280 kPa. When the bubble rises to the surface, the temperature changes to 300 K and pressure to 300 K and pressure to 100 kPa. Calculate the radius of the bubble at the surface

Bottom of a lake is at 0^(@)C and atmospheric temperature is -20^(@)C . If 1 cm ice is formed on the surface in 24 h, then time taken to form next 1 cm of ice is

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

When an air bubble rise from the bottom of a deep lake to a point just below the water surface, the pressure of air inside the bubble

As an air bubble rises from the bottom of a lake to the surface, its volume is doubled. Find the depth of the lake. Take atmospheric pressure = 76 cm of Hg.