Two mercury droplets of radii 0.1 cm and 0.2 cm collapse into one single drop. What amount of energy is released? The surface tension of mercury `T = 435. 5xx10^(-3) Nm^(-1)`

Two mercury droplets of radii 0.1 cm and 0.2 cm collapse into one single drop. What amount of energy is released ? The surface tension of mercury, T = 435.5 xx 10^-3 N m^-1

Two mercury droplets radii 0.1 cm and 0.2 cm collapse into one single drop. What amount of energy is released/absorbed? The sur4face tension of mercury T=435.5xx10^(-3)Nm^(-1)

Two mercury droplets of radii 0.2 cm and 0.4 cm collapse into one single drop. What amount of energy is released? The surface tension of mercury 440 xx 10^(-3) Nm^(-1) and g=10ms^(-2) .

A mercury drop of radius 1 cm is sprayed into 10^(6) dropletes of equal size. Calculates the energy expanded if surface tension of mercury is 35 xx 10^(-3) N//m .

A menisus drop of radius 1 cm sprayed into 10^(5) droplets of equal size . Calculate the energy expended if surface tension of mercury is 435 xx10^(-3) N/m

A menisus drop of radius 1 cm sprayed into 10^(5) droplets of equal size . Calculate the energy expended if surface tension of mercury is 435 xx10^(-3) N/m

A mercury drop of radius 1 cm is sprayed into 10^(6) drops of equal size. The energy expended in joules is (surface tension of mercury is 460 xx 10^(-3) Nm^(-1) )

A mercury drop of radius 1 cm is sprayed into 10^(6) droplets of equal size. Calculate the energy expended if surface tension of mercury is 35xx10^(-3)N//m .

A mercury drop of radius 1.0 cm is sprayed into 10^(6) droplets of equal sizes. The energy expended in this process is (Given, surface tension of mercury is 32 xx 10^(-2) Nm^(-1) )

A mercury drop of radius 1.0 cm is sprayed into 10^(6) droplets of equal sizes. The energy expended in this process is (Given, surface tension of mercury is 32 xx 10^(-2) Nm^(-1) )