Wien’s displacement law fails at
A. Low temperature
B. High temperature
C. Short wavelength
D. Long wavelength
Answer
Verified558k+ views
Hint: The Wien’s displacement law is a theory related to thermodynamics. We can recall that the Wien’s displacement law gives us a relation between the peak wavelength in a blackbody spectrum and the temperature at which this peak occurs. It is essential to know that when temperature is increased, the wavelength at which the maximum Intensity is obtained becomes lesser than the value at lower temperature.
Complete step by step solution:
Let us begin with understanding what a black body is,
A black body is a body that absorbs all the radiations that fall on it and emits radiations of all the possible wavelengths and frequencies.
When a body emits radiations, we try to know the intensity of the radiations. While Intensity tells us the quantity of the radiations or in simple words tells us how bright the light is.
However, in the case of blackbody It is observed that at a given temperature, as the wavelength is increased, the intensity increases initially, reaches a maximum value, and then goes on decreasing.
The wavelength at which the intensity is maximum is denoted as \[{{\lambda }_{\max }}\].
It is also found that as the temperature is increased, the wavelength at which the maximum intensity is obtained becomes lesser than the value at a lower temperature.
But as per the Wien’s displacement law, there exists inverse relation between the maximum wavelength emitted by the blackbody and the temperature, which is given by,
\[{{\lambda }_{\max }}\propto \dfrac{1}{T}\]
Which means for all high wavelengths the temperature must be very low.
However, we have to know that at very low temperatures a continuous Wein’s curve cannot be obtained. Hence Wien’s displacement law fails at long wavelengths.
Therefore, option D is the correct answer.</b>
Note: Wein’s displacement law establishes a relation between \[{{\lambda }_{\max }}\] and T which is given by,
\[{{\lambda }_{\max }}T=b\]
Where,
b is Wein’s displacement constant.
It is also important to know that Wein’s displacement law has nothing to do with displacement.
Complete step by step solution:
Let us begin with understanding what a black body is,
A black body is a body that absorbs all the radiations that fall on it and emits radiations of all the possible wavelengths and frequencies.
When a body emits radiations, we try to know the intensity of the radiations. While Intensity tells us the quantity of the radiations or in simple words tells us how bright the light is.
However, in the case of blackbody It is observed that at a given temperature, as the wavelength is increased, the intensity increases initially, reaches a maximum value, and then goes on decreasing.
The wavelength at which the intensity is maximum is denoted as \[{{\lambda }_{\max }}\].
It is also found that as the temperature is increased, the wavelength at which the maximum intensity is obtained becomes lesser than the value at a lower temperature.
But as per the Wien’s displacement law, there exists inverse relation between the maximum wavelength emitted by the blackbody and the temperature, which is given by,
\[{{\lambda }_{\max }}\propto \dfrac{1}{T}\]
Which means for all high wavelengths the temperature must be very low.
However, we have to know that at very low temperatures a continuous Wein’s curve cannot be obtained. Hence Wien’s displacement law fails at long wavelengths.
Therefore, option D is the correct answer.</b>
Note: Wein’s displacement law establishes a relation between \[{{\lambda }_{\max }}\] and T which is given by,
\[{{\lambda }_{\max }}T=b\]
Where,
b is Wein’s displacement constant.
It is also important to know that Wein’s displacement law has nothing to do with displacement.
Recently Updated Pages
Basicity of sulphurous acid and sulphuric acid are
Master Class 11 Business Studies: Engaging Questions & Answers for Success
Master Class 11 Computer Science: Engaging Questions & Answers for Success
Master Class 11 Economics: Engaging Questions & Answers for Success
Master Class 11 Social Science: Engaging Questions & Answers for Success
Master Class 11 English: Engaging Questions & Answers for Success
Trending doubts
One Metric ton is equal to kg A 10000 B 1000 C 100 class 11 physics CBSE
The largest wind power cluster is located in the state class 11 social science CBSE
Explain zero factorial class 11 maths CBSE
State and prove Bernoullis theorem class 11 physics CBSE
What steps did the French revolutionaries take to create class 11 social science CBSE
Which among the following are examples of coming together class 11 social science CBSE