An aluminium sphere of `20cm` diameter is headed 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)`

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)

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)

An aluminium sphere of diameter 20 cm is heated from 0^(@)C " to " 100^(@)C . What will be its change in volume? Coefficient of linear expansion of aluminium =23 times 10^(-6@)C^(-1) .

The coefficient of linear expansion of a metal rod is 12 xx 10^(-6//0)C , its value in per ^(0)F

An aluminium rod of length 50cm is heated so that its temperature increases from 20^(@)C" to "80^(@)C . If the linear coefficient of expansion of aluminium is 24 xx 10^(-6)//""^(@)C find the increase in the length of the aluminium rod.

An aluminium rod of length 50cm is heated so that its temperature increases from 20^(0) C. to 80^(0) C. If the linear coefficient of expansion of aluminium is 24 xx 10^(-6)//^(0) C find the increase in the le,igth of the aluminium rod.

An aluminium rod of length 50cm is heated so that its temperature increases from 20^(@)C" to "80^(@)C . If the linear coefficient of expansion of aluminium is 24xx10^(-6)//""^(@)C find the increase in the length of the aluminium rod.

An aluminium sphere at 20^(@)C is kept at 1 standard atmosphere pressure, in a pressure chamber covered with oil. What should be the rise in pressure on the sphere to keep its volume unchanged even at 35^(@)C ? Coefficient of linear expansion of aluminium, alpha=23 times 10^(6@)C^(-1) and its bulk modulus of elasticity, K=7.7 times 10^(10)N*m^(-2).