Two conductors of the same material have their diameters in the ratio 1 : 2 and their lengths in the ratio 2 : 1. If the temperature difference between their ends is the same, then the ratio of amounts of heat conducted per second through them will be
4 : 1
1 : 4
8 : 1
1 : 8
A piece of blue glass heated to a high temperature and a piece of red glass at room temperature, are taken inside a dimly lit room, then
the blue piece will look blue and red will look as usual
red looks bnghter red and blue looks ordinary blue
blue shines like brighter red compared to the red piece
both the pieces will look equally red
The wavelength of the radiation emitted by a body depends upon
the nature of the surface
the area of the surface
the temperature of the surface
all of the above factors
Infrared radiation was discovered in 1800 by
William Wollaston
William Herschel
Wilhelm Roentgen
Thomas Young
B.
William Herschel
Infrared radiation was discovered in 1800 by William Herschel.
The freezer in a refrigerator is located at the top section so that
the entire chamber of the refrigerator is cooled quickly due to convection
the motor is not heated
the heat gained from the environment is high
the heat gained from the environment is low
The sprinkling of water reduces slightly the temperature of a closed room because
temperature ofwater is less than that of the room
specific heat of water is high
water has large latent heat of vaporisation
water is a bad conductor of heat
Two identical rods AC and CB made of two different metals having thermal conductivities in the ratio 2 : 3 are kept in contact with each other at the end C as shown in the figure. A is at 100°C and B is at 25°C. Then the junction C is at
55°C
60°C
75°C
50°C
The surface temperature of the sun which has maximum energy emission at 500 nm is 6000 K. The temperature of a star which has maximum energy emission at 400 nm will be
8500 K
4500 K
7500 K
6500 K
The coefficient of thermal conductivity of copper is 9 times that of steel. In the composite cylindrical bar shown in the figure, what will be the temperature at the junction of copper and steel ?
75°C
67°C
25°C
33°C
If a black body emits 0.5 J of energy per second when it is at 27°C, then the amount of energy emitted by it when it is at 627°C will be
40.5 J
162 J
13.5 J
135 J