In hydrogen spectrum,some spectral lines are brighter than others depending upon their energy level. When electron jumps from some higher orbit,the energy released in the from of photon will be greater,and we get a brighter line. Thus in hydrogen spectrum some lines are brighter than others..
Considering this, which element has the most spectral lines?
Mercury: the strongest line, at 546 nm, gives mercury a greenish color. Fig. 2. When heated in a electric discharge tube, each element produces a unique pattern of spectral `lines'.
what is broadening of spectral lines? Line broadening. spectroscopy. Line broadening, in spectroscopy, the spreading across a greater wavelength, or frequency range, of absorption lines (dark) or emission lines (bright) in the radiation received from some object.
Thereof, why are spectral lines different for each element?
Each elements emission spectrum is distinct because each element has a different set of electron energy levels. The lines (photons) are emitted as electrons fall from higher energy orbitals to lower energies.
How do you identify a spectral line?
Emission lines are seen as coloured lines on a black background. Absorption lines are seen as black lines on a coloured background. The presence of spectral lines is explained by quantum mechanics in terms of the energy levels of atoms, ions and molecules.
Related Question Answers
How many spectral lines are there?
Answer: Total number of spectral lines = (n2−n1)(n2−n1−1)/2Here, n2=5 and n1=1Therefore, total number of spectral lines = (5−1)(5−1−1)/2=202=10i. e. total 10 lines i.e. 5→4,5→3,5→2,5→1,4→3,4→2,4→1,3→2,3→1,2→1 are possible in this case.What do spectral lines tell us?
From spectral lines astronomers can determine not only the element, but the temperature and density of that element in the star. The spectral line also can tell us about any magnetic field of the star. The light from the stuff between the stars allows astronomers to study the interstellar medium (ISM).What is the origin of spectral lines?
Spectral lines are the result of interaction between a quantum system (usually atoms, but sometimes molecules or atomic nuclei) and a single photon. An absorption line is produced when photons from a hot, broad spectrum source pass through a cold material.How are spectral lines produced?
As electrons jump down to the n = 2 orbit, they emit photons of specific frequency (hence colour) that can be seen as emission lines in the visible part of the em spectrum. The number of spectral lines that can be produced is vast given the permutations of atoms, molecules and orbital transitions possible.What do absorption lines tell us?
As photons fly through the outermost layers of the stellar atmosphere, however, they may be absorbed by atoms or ions in those outer layers. The absorption lines produced by these outermost layers of the star tell us a lot about the chemical compositition, temperature, and other features of the star.What are absorption lines?
An absorption line will appear in a spectrum if an absorbing material is placed between a source and the observer. This material could be the outer layers of a star, a cloud of interstellar gas or a cloud of dust. Absorption lines are usually seen as dark lines, or lines of reduced intensity, on a continuous spectrum.What causes absorption lines?
An absorption line occurs when an electron jumps from a lower energy state to a higher energy state, extracting the required photon from an outside source of energy such as the continuous spectrum of a hot, glowing object.How many spectral lines does hydrogen have?
So, there are four lines in the visible spectrum of hydrogen. There are, of course, lots of other lines in hydrogen's spectrum but they are all outside of our visible range so we cannot see them with our naked eye (and a diffraction grating).How can line spectra be used to identify an element?
When an atom absorbs energy, its electrons jump to higher energy levels. Each transition has a specific energy difference. This collection of transitions makes up an emission spectrum. These emission spectra are as distinctive to each element as fingerprints are to people.Which color of light has the greatest energy?
When it comes to visible light, the highest frequency color, which is violet, also has the most energy. The lowest frequency of visible light, which is red, has the least energy.Why do different elements emit different colors of light?
Heating an atom excites its electrons and they jump to higher energy levels. When the electrons return to lower energy levels, they emit energy in the form of light. Every element has a different number of electrons and a different set of energy levels. Thus, each element emits its own set of colours.How do you tell if a photon is emitted or absorbed?
The atom absorbs or emits light in discrete packets called photons, and each photon has a definite energy. Only a photon with an energy of exactly 10.2 eV can be absorbed or emitted when the electron jumps between the n = 1 and n = 2 energy levels. l = hc/E.What does the width of the spectral line represent?
Spectral Lines, Width of. Spectral lines in optical spectra of atoms, molecules, and other quantum systems are characterized by a range of frequencies v or a range of wavelengths λ = c/v, where c is the speed of light. Such a frequency or wavelength range is called the width of spectral lines.Why do elements have different spectral lines?
Each element has a different atomic spectrum. The production of line spectra by the atoms of an element indicate that an atom can radiate only a certain amount of energy. This leads to the conclusion that bound electrons cannot have just any amount of energy but only a certain amount of energy.What Colours of light are absorbed by hydrogen gas?
What colors of light are absorbed by hydrogen gas? Orange, light blue, bright blue, and indigo are absorbed by hydrogen gas.What is a star's spectrum?
Spectra of Stars. A spectrum (the plural is spectra) is a graph of the amount of light something gives off (how bright the object is) at different wavelengths. In the spectra of stars, we frequently do not know the distances to the stars, so a star's spectrum shows how bright it appears from Earth.Why are the spectral lines different colors?
When its electron jumps from higher energy level to a lower one, it releases a photon. Those photons cause different colours of light of different wavelengths due to the different levels. Those photons appear as lines.Why are Fraunhofer lines black?
The black lines in the Sun's spectrum are caused by gases on, or above, the Sun's surface that absorb some of the emitted light. Fraunhofer lines, on the Sun's absorption spectrum. The letters correspond to various elements (such as helium, sodium) that cause the lines. 
