A motor car tyre is pumped up to pressur...

A motor car tyre is pumped up to pressure of two atmosheres at `15^(@)C` when it suddenly bursts. Calculate the resulting drop in temperature of the escaping air `(gamma =14)`.

Similar Questions

Explore conceptually related problems

A motor car type has a pressure of 2 atmosphere at 27^(@)C . It suddenly burts. If C_(P)//C_(V) = 1.4 for air, then the resulting temperature is

A tyre pumped to a pressure of 3.375 atmosphere and at 27^@C suddenly bursts . Calculate the temperature of escaping air . (y = 1.5)

A motor car tyre has a pressure of 2 atmosphere at room temperature of 27^(@)C . If the tyre suddenly bursts, find the resulting temperature (in kelvin).

A tyre pumped to a pressure of 6 atmosphere, suddenly bursts. Room temperature is 15^circ C . Calculate the temperature of escaping air gamma= 1.4 .

A tyre pumped to a pressure of 6 atmosphere suddenly bursts. Room temperature is 25^(@) C. Calculate the temperature of escaping air. (gamma=1.4)

A tyre pumped to a pressure of 6 atmosphere suddenly bursts. Room temperature is 25^(@)C . Calculate the temperature of escaping air. (gamma=1.4.)

A tyre is pumped to a pressure of 3.375 atmospheres and at 27^@C suddently bursts.What is the final temperature? (gamma=1.5) .

A tyre pumped to a pressure of 6 atmosphere bursts suddenly. Calculate the temperature of escaping air. Given initial room temperature is 15^(@)C and gamma for air is 1.4 .

A motor car tyre is pumped up to pressure of two atmosheres at `15^(@)C` when it suddenly bursts. Calculate the resulting drop in temperature of the escaping air `(gamma =14)`.

Similar Questions

Recommended Questions