Yes , every element has different line in the spectrum.
True
Elements have several spectral lines and although some lines may be the same between different elements most lines are not and the whole spectrum for each element is indeed unique.
The spectral lines. Each element has a characteristic "fingerprint" in a spectrum.
No.
colours of the rainbow is practically white light that has been diffracted/ dispersed into different coloursbut so is visible lightthe rainbow is the same as visible light. the rainbow is where they get the visible light theory.
The line spectrum is usually used to sort out the atomic fingerprint as the gas emit light at very specific frequencies when exposed to the electromagnetic waves. The electromagnetic waves are usually displayed in form of the spectral lines.
The wave lengths of lines of the spectrum are different for each chemical element.
The spacing between the lines in the spectrum of an element are constant. This is called the emission spectrum of an element. Each element has a unique emission spectra that will be the same each time.
Elements have several spectral lines and although some lines may be the same between different elements most lines are not and the whole spectrum for each element is indeed unique.
Each element has its own unique spectrum, just as each person has his/her own unique set of fingerprints.
The wave lengths of the lines in the spectrum are different for each chemical element.
The wave lengths of the lines in the spectrum are different for each chemical element.
Each element has a unique adsorption and/or radiant spectrum. If you compare the spectrum you get with a list of known spectrums you can make a match.
Each element has a unique adsorption and/or radiant spectrum. If you compare the spectrum you get with a list of known spectrums you can make a match.
The precise energy levels of each orbital vary depending on the nuclear charge. Since the spectral lines correspond to transitions between orbitals, each element will have different energies for these transitions, and therefore will have a unique spectrum.
The emission spectrum of each element has characteristic lines for each element. Analyzing the spectrum of a star, you can figure out what elements are present, and also get an estimate on how much there is of each element. For more information, check the Wikipedia article on "emission spectrum".
The spectral lines. Each element has a characteristic "fingerprint" in a spectrum.
The spectral lines. Each element has a characteristic "fingerprint" in a spectrum.