Ice formed over lakes has
1. | Very high thermal conductivity and helps in further ice formation |
2. | Very low conductivity and retards further formation of ice |
3. | It permits quick convection and retards further formation of ice |
4. | It is very good radiator |
Wires A and B have identical lengths and have circular cross-sections. The radius of A is twice the radius of B i.e. . For a given temperature difference between the two ends, both wires conduct heat at the same rate. The relation between the thermal conductivities is given by
(1)
(2)
(3)
(4)
Two identical plates of different metals are joined to form a single plate whose thickness is double the thickness of each plate. If the coefficients of conductivity of each plate are 2 and 3 respectively, then the conductivity of the composite plate will be:
1. 5
2. 2.4
3. 1.5
4. 1.2
The coefficients of thermal conductivity of copper, mercury and glass are respectively , and such that . If the same quantity of heat is to flow per second per unit area of each and corresponding temperature gradients are , and , then
(1)
(2)
(3)
(4)
If two metallic plates of equal thicknesses and thermal conductivities and are put together face to face and a common plate is constructed, then the equivalent thermal conductivity of this plate will be
(1)
(2)
(3)
(4)
The quantity of heat which crosses unit area of a metal plate during conduction depends upon
(1) The density of the metal
(2) The temperature gradient perpendicular to the area
(3) The temperature to which the metal is heated
(4) The area of the metal plate
Two spheres of different materials one with double the radius and one-fourth wall thickness of the other, are filled with ice. If the time taken for complete melting of ice in the larger sphere is 25 minutes and that for smaller sphere 16 minutes, the ratio of thermal conductivities of the materials of larger sphere to the smaller sphere is
(1) 4 : 5
(2) 5 : 4
(3) 25 : 1
(4) 8 : 25
The mud houses are cooler in the summer and warmer in the winter because:
1. | The mud is a superconductor of heat. |
2. | The mud is a good conductor of heat. |
3. | The mud is a bad conductor of heat. |
4. | None of the above. |
The temperature of the hot and cold ends of a 20 cm long rod in a thermal steady state is at \(100^{\circ}\mathrm{C}\) and \(20^{\circ}\mathrm{C}\) respectively. The temperature at the centre of the rod will be:
1. \(50^{\circ}\mathrm{C}\)
2. \(60^{\circ}\mathrm{C}\)
3. \(40^{\circ}\mathrm{C}\)
4. \(30^{\circ}\mathrm{C}\)
Two bars of thermal conductivities K and 3K and lengths 1 cm and 2 cm respectively have equal cross-sectional area, they are joined lengths wise as shown in the figure. If the temperature at the ends of this composite bar is 0 and 100 respectively (see figure), then the temperature of the interface is
(1) 50
(2)
(3) 60
(4)