SI unit of coefficient of thermal conductivity

Coefficient of thermal conductivity is the product of heat, distance and reciprocal of (area x difference in temperature x time). The new value of a unit of coefficient of thermal conductivity, if fundamental units are 21.6 kg, 1 decimetre, 4 K and 1 minute will be ______ xx 10^(-6) new units.

The dimensions of coefficient of thermal conductivity is

Obtain the dimensions of (1) coefficient of thermal conductivity (2) Gas constant (3) Boltzmann constant (4) Planck's constant.

Describe an experiment to determine the coefficient of thermal conductivity of a good conductor by Searle's method.

A wall consists of alternating blocks withlength 'd' and coefficient of thermal conductivity k_(1) and k_(2) . The cross sectional area of the blocks are the same. The equivalent coefficient of thermal conductivity of the wall between left and right is:-

A long rod has one end at 0^@C and other end at a high temperature. The coefficient of thermal conductivity varies with distance from the low temperature end as K = K_0(1+ax) , where K_0 = 10^2 SI unit and a = 1m^-1 . At what distance from the first end the temperature will be 100^@C ? The area of cross-section is 1cm^2 and rate of heat conduction is 1 W.

Define coefficient of thermal conductivity or thermal conductivity of a substance.

Two bar of identical dimensions are kept as shown in figure. If K_1 and K_2 are their coefficients of thermal conductivities, then equivalent K

Two rods of length d_(1) and d_(2) and coefficients of thermal conductivites K_(1) and K_(2) are kept touching each other. Both have the same area of cross-section. The equivalent thermal conductivity.

SI unit of work