A body of length `1 m` having cross sectional area `0.75 m^(2)` has heat flow through it at the rate of `6000 "Joule"//sec`. Then find the temperature difference if `K = 200 Jm^(-1) K^(-1)`.

A body of length 1m having cross sectional area 0.75 m^2 has heat flow through it at the rate of 6000 Joule / sec . Then find the temperature difference if K = 200 Jm^-1K^-1

A body of length 1m having cross sectional area 0.80 m^2 has heat flow through it at the rate of 8000 J / sec . Then find the temperature difference if K = 200 Jm^-1K^-1

A rod of length 1 m having cross-sectionalarea 0.75 m^(2) ' conducts heat at 6000 Js^(-1) . Then the temperature difference acorss the rod is, if K=200 W m^(-1) K^(-1)

A body of length l m having cross-sectional area 0.75 m^2 conducts heat 6000 J s^-1 . Then find the temperature difference if K=200 J m^-1 K^-1 .

A rod of length 1 m having cross-sectional area 0.75m^(2) conducts heat at 6000Js^(-1) . Then the temperature difference acorss the rod is, if K=200Wm^(-1)K^(-1)

A rod of length1m having cross sections area 0.75m^(2), conducts heat at 6000J/sec.Then the temperature difference across the rod isK=200Wm^(-1)k^(-1)

Heat is flowing through a rod of length 25.0 cm having cross-sectional area 8.80 cm^(2) . The coefficient of thermal conductivity for the material of the rod is K = 9.2 xx 10^(-2) kcal s^(-1) m^(-1) .^(@)C^(-1) . The Temperatures of the ends of the rod are 125^(@)C and 0^(@)C in the steady state. Calculate (i) temeprature gradient in the rod (ii) temperature of a point at a distance of 10.0 cm from the hot end and (iii) rate of flow of heat.

The figure show a cross-section of a double glass unit of a window on a vertical wall. A graph wall. A graph of the temperature at different points within the unit is show next to it. The temperature difference across the unit is 13 K . It has a crossp-sectional area of 1.3 m^(2) and the rate of heat flow through it is 65 W . Then the correct statement is (Glass has a thermal conductivity of 1 W m^(-1) K^(-1) )