If a rod of Young's modulus 20 G Pa undergoes a linear strain of `6xx10^(-4)`, then increase in its energy density will be

A rod of Young.s modulus 20 GPa undergoes a linear strain of 6xx10^(-4) . Then increase in its energy density is ---

A metal rod of Young's modulus 2 xx 10 ^(10) Nm ^(-2), undergoes longitudinal strain of 1%, the potential energy per unit volume stored in rod is ....... Jm^(-3).

A metal rod of Young's modulus 2 xx 10^10 Nm^(-2) undergoes an elastic strain of 0.02% the energy per unit volume stored in the rod in joule/ m^3 is

A metal rod fo Young's modulus 2xx10^(10) Nm^(2) undergoes an elastic strain of 0.02% the energy per unit volume stored in the rod in "joule"//m^(3) is

A metallic rod of Young's modulus 2xx10^(11)Nm^(2) undergoes a strain of 0.5% . Then the energy stored per unit volume in the rod will be

A metal rod of Young's modulus 2xx10^(10)Nm^(-2) undergoes an elastic strain of 0.06%. The energy per unit volume stored in Jm^(-3) is

A metal rod of Young's modulus 2xx10^(10)Nm^(-2) undergoes an elastic strain of 0.06%. The energy per unit volume stored in Jm^(-3) is

A metal rod of Young's modulus 2 xx 10^(10) Nm^(-2) undergoes elastic strain of 0.06%. The energy per unit volume stored (in Jm^(-3) ) is

A steekl rod of Young's modulus 2xx 10^(11)N//m^(2) undergoes an elastic strain of 0.05% .The energy per unit voulme stored in J//m^(3) is