A solid copper sphere of density `rho`, specific heat c and radius r is at temperature `T_1`. It is suspended inside a chamber whose walls are at temperature `0K`. What is the time required for the temperature of sphere to drop to `T_2`? Take the emmissivity of the sphere to be equal to e.

A solid copper sphere (density rho and specific heat c) of radius r at an initial temperature 200K is suspended inside a chamber whose walls are at almost 0K. The time required for the temperature of the sphere to drop to 100K is …….

A solid copper sphere (density rho and specific heat c) of radius r at an initial temperature 200K is suspended inside a chamber whose walls are at almost 0K. The time required for the temperature of the sphere to drop to 100K is …….

A solid copper shere of density rho specific heat c and radius r is at temperature T_(1) It is suspended inside a chamber whose walls are at temperature 0 K The time required for the temperature of sphere to drop to T_(2) is (rrhoc)/(xesigma)((1)/(T_(2)^(3))-(1)/(T_(1)^(3))) Find the value of x? Take the emmissivity of teh sphere to be equal to e .

A solid copper sphere of density rho specific heat capacity C and radius r is initially at 200K. It is suspended inside a chamber whose walls are at 0 K. The time required (in mu s) for the temperature of the sphere to drop to 100 K is ( sigma is Stefan's constant and all the quantities are in SI units.)

A solid copper sphere (density =8900kgm^(-3) and specific heat C=390Jkg^(-1)K^(-1) ) of radius r=10cm is at an initial temperature T_(1)=200K . It is then suspended inside an chamber whose walls are at almost OK . Calculate the time required for the temperature of the sphere to drop to T_(2)=100 K , sigma=5.67xx10^(-8)Wm^(-2)K^(-4) .

A solid sphere of radius 'R' density rho and specific heat 'S' initially at temperature T_(0) Kelvin is suspended in a surrounding at temperature 0K. Then the time required to decrease the temperature of the sphere from T_(0) to (T_(0))/(2) kelvin is (Assume sphere behaves like a black body)

A solid sphere of radius 'R' density rho and specific heat 'S' initially at temperature T_(0) Kelvin is suspended in a surrounding at temperature 0K. Then the time required to decrease the temperature of the sphere from T_(0) to (T_(0))/(2) kelvin is (Assume sphere behaves like a black body)