The ends of copper rod of length `1m` and area of cross section `1cm^(2)` are maintained at `0^(@)C` and `100^(@)C`. At the centre of rod, there is a source of heat of `32W`. The thermal conductivity of copper is `400W//mK`

The ends of a copper rod of length 1m and area of cross-section 1cm^2 are maintained at 0^@C and 100^@C . At the centre of the rod there is a source of heat of power 25 W. Calculate the temperature gradient in the two halves of the rod in steady state. Thermal conductivity of copper is 400 Wm^-1 K^-1 .

One end of a metal rod of length 1.0 m and area of cross section 100 cm^(2) is maintained at . 100^(@)C . If the other end of the rod is maintained at 0^(@)C , the quantity of heat transmitted through the rod per minute is (Coefficient of thermal conductivity of material of rod = 100 W//m-K )

The heat is flowing through a rod of length 50 cm and area of cross-section 5cm^(2) . Its ends are respectively at 25^(@)C and 125^(@)C . The coefficient of thermal conductivity of the material of the rod is 0.092 kcal // m × s ×.^(@) C . The temperature gradient in the rod is

One end of a copper rod of length 1 m and area of cross - section 400 xx (10^-4) m^2 is maintained at 100^@C . At the other end of the rod ice is kept at 0^@C . Neglecting the loss of heat from the surrounding, find the mass of ice melted in 1h. Given, K_(Cu) = 401 W//m-K and L_f = 3.35 xx (10^5) J//kg.

Two ends of a conducting rod of varying cross-section are maintained at 200^(@)C and 0^(@)C respectively. In steady state:

A unifrom steel rod of length 1m and area of cross-section 20 cm^(2) is hanging from a fixed support. Find the increases in the length of the rod.

Cylinder copper rod of length 1m and a cylinder steel rod of length 1.5m are joined together end to end. The cross sectional area of eac rod is 3.14cm . The free ends of steel rod and copper rods are maintained at 0^(@)C and 100^(@)C respectively. The surfaces of rods are thermally insulated. Find the temperature of copper steel junction. (Given thermal conductivity of steel =46J//m-s.^(@)C and the thermal conductivity of copper =386J//m-s.^(@)C )

Cylinder rod of copper of length 2m and cross-sectional area 2cm^(2) is insulated at its curved surface. The one end of rod is maintained in steam chamgber and other is maintained in ice at 0^(@)C (The thermal coductivity of copper is 386J//m-s .^(@)C ). Find the temperature at a point which is at a distance of 120cm from the colder end.