On heating water from `0^(@)C` to `100^(@)C` its volume

When water is heated from 0^(@)C to 10^(@)C , its volume

When water is heated from 0^(@)C to 10^(@)C , its volume

An aluminium sphere of 20cm diameter is heated from 0^(@)C to 100^(@)C . Its volume changes by (given that the coefficient of linear expanison for aluminium (alpha_(Al) = 23 xx 10^(-6//0)C)

When water is cooled from 4^@C to 0^@C its volume decreases.

Water at 0^@C was heated until it started to boil and then until it all changed to steam. The time required to heat water from 0^@C to 100^@C is 5 min and the time to change boiling water to steam is 28 minutes. If the flame supplied heat at a constant rate, the specific latent heat of vaporization of water (neglecting heat losses, container etc. is (in J//g ). (specific heat of water s =4.2 J//g )

Water is cooled from 4^(@)C to 0^(@)C it:

Cooling of water from 4^@C to 0^@C results in volume expansion

500 kg of water is heated from 20^(@) to 100^(@) C . Calculate the increase in the mass of water.Given specific heat of water =4.2 xx 10^(3) J kg ^(-1) .^(@)C^(-1) .

A glass vessel of volume 100 cm^(3) is filled with mercury and is heated from 25^(@)C to 75^(@)C . What volume of mercury will overflow? Coefficient of linear expansion of glass = 1.8 xx 10^(-6)//'^(@)C and coefficeient of volume expansion of mercury is 1.8 xx 10^(-4)//'^(@)C .

State the volume changes observed when a givenmass of water is heated from 0^(@)C to 10^(@)C . Sketch a temperature volume graph to show the behaviour.