Why does irradiating a low pressure gas result in a continuous spectrum?

In summary, when irradiating a low pressure gas sample, some radiation is absorbed and may result in a discontinuous spectrum. However, due to the simultaneous absorption and emission of photons, the overall spectrum is expected to be continuous. This is because the probability of a photon being emitted in the exact same direction as the incident light is low.
  • #1
SciencePF
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Hi!
The question is
Suppose we are irradiating a sample of a low pressure gas and some of the radiation is absorbed. Some books say we will obtain a discontinuous spectrum!
But if we are irradiating a sample of a low pressure gas we will have absorption and emission at the same time and the spectrum must be continuous; statistically some atoms are absorbing and others are emitting!
Thanks in advance for your interest and help.
 
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  • #2
A photon is emitted from an excited gas molecule in a random direction when it relaxes back to its ground state. So if you are illuminating the gas with light in a narrow particular direction and you are observing the spectrum directly opposite the direction of the illuminating light on the other side of the sample then an absorption spectrum appears, because the probability of the photon being emitted in *exactly the same direction* as that of the incident light every single time an emission takes place is low.
 
  • #3


I would like to clarify that the statement about obtaining a discontinuous spectrum from irradiating a low pressure gas is not entirely accurate. In fact, irradiating a low pressure gas will result in a continuous spectrum due to the nature of the process.

When a low pressure gas is irradiated, the atoms in the gas will absorb certain wavelengths of radiation based on their energy levels. This absorption will result in the emission of photons at different wavelengths, which will create a spectrum. However, since the gas is at a low pressure, there are not enough atoms to absorb all the possible wavelengths of radiation. This means that there will be gaps or "missing" wavelengths in the spectrum, giving the appearance of a discontinuous spectrum.

However, if we were to increase the pressure of the gas, more atoms would be present and able to absorb a wider range of wavelengths. This would result in a more continuous spectrum, as there would be fewer gaps in the wavelengths absorbed and emitted.

In short, the reason for a continuous spectrum from irradiating a low pressure gas is due to the limited number of atoms available to absorb radiation, resulting in gaps in the spectrum. This is a statistical effect and does not necessarily indicate a true discontinuous spectrum.
 

Related to Why does irradiating a low pressure gas result in a continuous spectrum?

1. What is the electromagnetic spectrum?

The electromagnetic spectrum is the range of all possible frequencies of electromagnetic radiation. It includes all types of electromagnetic radiation, from radio waves to gamma rays.

2. How is the electromagnetic spectrum divided?

The electromagnetic spectrum is divided into several regions based on the different wavelengths and frequencies of electromagnetic radiation. These regions include radio waves, microwaves, infrared, visible light, ultraviolet, X-rays, and gamma rays.

3. What is the relationship between wavelength and frequency in the electromagnetic spectrum?

The wavelength and frequency of electromagnetic radiation are inversely proportional. This means that as the wavelength increases, the frequency decreases and vice versa. This relationship is described by the equation c = λv, where c is the speed of light, λ is the wavelength, and v is the frequency.

4. What is the importance of the electromagnetic spectrum?

The electromagnetic spectrum is important in many different fields, including communication, medicine, and astronomy. It allows us to transmit and receive information through different types of waves, and it also helps us to study and understand the universe.

5. How does the human body interact with the electromagnetic spectrum?

The human body interacts with the electromagnetic spectrum in various ways. Radio waves and microwaves are used for communication and cooking, respectively, while visible light allows us to see. However, exposure to high levels of ultraviolet, X-rays, and gamma rays can be harmful to our health, as they can damage our cells and DNA.

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