Which of the following law states that “good absorbers of heat are good emitters” ?
(1) Stefan’s law
(2) Kirchoff’s law
(3) Planck’s law
(4) Wein’s law
According to Wein's law:
1. = constant
2. = constant
3. = constant
4. = constant
On investigation of light from three different stars A, B and C, it was found that in the spectrum of A the intensity of red colour is maximum, in B the intensity of blue colour is maximum and in C the intensity of yellow colour is maximum. From these observations it can be concluded that
(1) The temperature of A is maximum, B is minimum and C is intermediate
(2) The temperature of A is maximum, C is minimum and B is intermediate
(3) The temperature of B is maximum, A is minimum and C is intermediate
(4) The temperature of C is maximum, B is minimum and A is intermediate
The wavelength of radiation emitted by a body depends upon
(1) The nature of its surface
(2) The area of its surface
(3) The temperature of its surface
(4) All the above factors
If black wire of platinum is heated, then its colour first appear red, then yellow and finally white. It can be understood on the basis of
(1) Wien's displacement law
(2) Prevost theroy of heat exchange
(3) Newton's law of cooling
(4) None of the above
Colour of shining bright star is an indication of its
(1) Distance from the earth
(2) Size
(3) Temperature
(4) Mass
A black body at \(200~\text{K}\) is found to emit maximum energy at a wavelength of \(14~\mu \text{m}\). When its temperature is raised to \(1000~\text{K}\), the wavelength at which maximum energy is emitted will be:
1. | \(14~\mu\text{m}\) | 2. | \(70~\mu\text{m}\) |
3. | \(2.8~\mu\text{m}\) | 4. | \(2.8~\text{nm}\) |
If the temperature of the sun becomes twice its present temperature, then:
1. | Radiated energy would be predominantly in the infrared range. |
2. | Radiated energy would be primarily in the ultraviolet range. |
3. | Radiated energy would be predominantly in the X-ray region |
4. | Radiated energy would become twice as strong as it is now. |
The maximum energy in the thermal radiation from a hot source occurs at a wavelength of cm. According to Wein's law, the temperature of the source (on Kelvin scale) will be n times the temperature of another source (on Kelvin scale) for which the wavelength at maximum energy is cm. The value n is
(a) 2 (b) 4
(c) (d) 1
How is the temperature of stars determined by ?
(1) Stefan’s law
(2) Wein’s displacement law
(3) Kirchhoff’s law
(4) Ohm’s law