See this site for absorption spectra of many gasses;
(check related link)
The absorption spectrum of an atom shows that the atom emits that spectrum which it absorbs.
Number of nitrogen atoms in 1 mole nitrogen dioxide? Nitrogen dioxide has 1 N atom and 2 O atoms. One mole of nitrogen dioxide has 1 mole of N atoms
Dark lines in an absorption spectrum are called absorption lines. These lines correspond to wavelengths of light that have been absorbed by specific elements or molecules in the sample being analyzed. They appear as dips or gaps in the spectrum where less light is detected.
The absorption spectrum shows the specific wavelengths of light that are absorbed by a material, indicating the energy levels of electrons in the substance. By analyzing the absorption spectrum, scientists can identify the chemical composition of the material and understand its electronic structure.
A band spectrum is an absorption or emission spectrum consisting of bands of closely-spaced lines, characteristic of polyatomic molecules.
NO2, nitrogen dioxide, is typically reddish-brown in color. This color is caused by the absorption of light in the blue region of the spectrum.
The absorption spectrum of carbon dioxide is significant in the context of climate change because it shows how much heat energy the gas can trap in the Earth's atmosphere. This trapping of heat, known as the greenhouse effect, contributes to global warming and climate change. Understanding the absorption spectrum helps scientists predict how increasing levels of carbon dioxide in the atmosphere will impact the Earth's temperature and climate.
Nitrogen oxide (NO) is colorless because it consists of only one nitrogen atom and one oxygen atom, which do not absorb visible light. On the other hand, nitrogen dioxide (NO2) is a brown gas because it consists of one nitrogen atom and two oxygen atoms, leading to the absorption of light in the visible spectrum, giving it a brown color.
The absorption spectrum of an atom shows that the atom emits that spectrum which it absorbs.
The absorption spectrum of boron typically shows strong absorption in the ultraviolet region, with some absorption in the visible spectrum as well. Boron's absorption spectrum is characterized by a series of sharp peaks due to transitions between energy levels in its atomic structure.
In the absorption spectrum the peaks are due to preferential absorption at a definite wavelength by molecules, ions, etc.
No, an absorption spectrum and a bright line spectrum are not the same. An absorption spectrum is produced when light is absorbed by atoms or molecules, showing dark lines at specific wavelengths. On the other hand, a bright line spectrum is produced when atoms or molecules emit light at specific wavelengths, creating bright lines in the spectrum.
Nitric oxide + oxygen => Nitrogen Dioxide
It all depends on the frequencies of light the compounds reflect and absorb. The color you see is reflected light at a certain frequency(corresponding to a combination of certain colors in the electromagnetic spectrum), while the rest is absorbed. For example, the Nitrogen Oxide molecule absorb light at a frequency out of the visible range, and reflect all colors we can see. That is why we see that Nitrogen gas is a white gas(if the gas if concentrated enough). As for nitrogen dioxide, the molecules absorb a certain color. All the other colors are reflected as a brown color.
Nitrogen dioxide
Nitrogen dioxide is NO2NO2NO2NO2
An absorption spectrum shows dark lines at specific wavelengths where light has been absorbed by a substance. A continuous spectrum shows all colors/wavelengths with no gaps, like the rainbow. The main difference is that the absorption spectrum has specific dark lines while the continuous spectrum is smooth and uninterrupted.