The coefficient of volume expansion of glycerine is `49 xx 10^(-5) K^(-1)`. What is the fractional change in its density for a `30^(@) C` rise in temperature ?

The coefficient of volume expansion of glycerin is 49xx10^(-5)K^(-1) . What is the fractional change in its density for a 30^(@)C rise in temperature ?

The value of coefficient of volume expansion of glycerin is 5 xx 10^(-4) K^(-1) . The fractional change in the density of glycerin for a rise of 40^@ C in its temperature is _____

A steel wire of cross section 1 mm2 is heated at 60^(@) C and tied between two ends family. Calculate change in tension when temperature becomes 30^(@) C coefficient of linear expansion for steel is alpha = 1.1 xx 10 ^(-5) "”^(@)C ^(-1), Y =2 xx 10 ^(11) Pa. (Change in length of wire due to change in temperature (Delta t) is Delta l = alpha l Delta t)

The radius of a metal sphere at room temperature T is R, and the coefficient of linear expansion of the metal is alpha . The sphere is heated a little by a temperature DeltaT so that its new temperature is T+DeltaT . The increase in the volume of the sphere is approsimately.

There are two layers of water in a calorimeter, the lower one colder at temperature 30^(@)C and the upper one hotter at temperature 60^(@)C . The mass of lower water is m and volume is V . The mass of upper water is 2 m and volume is 2V . The coefficient of volume expansion for water is gamma . When the temperature of the whole system becomes equal , the ratio of new volume to the old volume is .

Solids and liquids both expands on heating. The density of substance decreases on expanding according to the relation rho_(2) = (rho_(1))/(1 + gamma(T_(2)- T_(1))) , where , rho_(1) rarr "density at" T_(1) , rho_(2) rarr "density at" T_(2) , gamma rarr coefficient of volume expansion of substances. When a solid is submerged in a liquid , liquid exerts an upward force on solid which is equal to the weight of liquid displaced by submerged part of solid. Solid will float or sink depends on relative densities of solid and liquid . A cubical block of solid floats in a liquid with half of its volume submerged in liquid as shown in figure (at temperature T ) alpha_(S) rarr Coefficient of linear expansion of solid gamma_(L) rarr "Coefficient of volume expansion of liquid" rho_(S) rarr "Density of solid at temperature" T rho_(L) rarr" Density of liquid at temperature" T Imagine fraction submerged does not change on increasing temperature the relation between gamma_(L) and alpha_(S) is

Solids and liquids both expands on heating. The density of substance decreases on expanding according to the relation rho_(2) = (rho_(1))/(1 + gamma(T_(2)- T_(1))) , where , rho_(1) rarr "density at" T_(1) , rho_(2) rarr "density at" T_(2) , gamma rarr coefficient of volume expansion of substances. When a solid is submerged in a liquid , liquid exerts an upward force on solid which is equal to the weight of liquid displaced by submerged part of solid. Solid will float or sink depends on relative densities of solid and liquid . A cubical block of solid floats in a liquid with half ot its volume submerged in liquid as shown in figure (at temperature T ) alpha_(S) rarr Coefficient of linear expansion of solid gamma_(L) rarr "Coefficient of volume expansion of liquid" rho_(S) rarr "Density of solid at temperature" T rho_(L) rarr" Density of liquid at temperature" T If temperature of system increases, then fraction of solid submerged in liquid