If co-efficient of thermal (length) expansion for iron be `12xx10^(-6)^@C^(-1)` then ratio of thermal expansion to original length for `1^@C` increase in temperature-

Coefficient of linear expansion of iron is 12 times 10^(-6@)C^(-1) - explain the statement.

If the co-efficient of linear expansion of iron is 12 xx 10^-6 //^@C , the value of co-efficient of superficial expansion is.

The co-efficient of a^(3)b^(4)c^(5) in the expansion of (bc+ca+ab)^(6) is

A metal rod is fixed rigidly at two ends so as to prevent its thermal expansion. If L, alpha and Y respectively denote the length of the rod, coefficient of linear thermal expansion and Young's modulus of its material, then for an increase in temperature of the rod by DeltaT , the longitudinal stress developed in the rod is

A metal rod is fixed rigidly at two ends so as to prevent its thermal expansion. If L, alpha and Y respectively denote the length of the rod, coefficient of linear thermal expansion and Young's modulus of its material, then for an increase in temperature of the rod by DeltaT , the longitudinal stress developed in the rod is

The coefficient of volume expansion of mercury is 18 times 10^(-5@)C^(-1) and the coefficient of linear expansion of copper and glass are 17 times 10^(-6@)C^(-1) and 9 times 10^(-6@)C^(-1) respectively. If mercury is kept first in the copper vessel and then in the glass vessel, then