1.explain why there are more lines in the hydrogen emission spectrum than in the absorption spectrum?...
Homework Answers
Ans. 1 When a beam of polychromatic light is passed through a prism ,it breaks into its constituent colours . This array of light is called Spectrum.Further spectrum is of two types :-
i) Emission Spectrum :- This type of spectrum is obtained when the light coming after passing through the prism is examined directly with a spectroscope.
ii) Absorption Spectrum :- When the light from a source emitting a continuous spectrum is first passed through an absorbing substance ,and then observed through a spectroscope , it will be found that certain colours are missing which leave dark lines or bands at their places . The observed spectrum is called absorption spectrum .
Although an atom of hydroger contains only one electron ,yet its atomic spectrum consists of a large number of lines which have been grouped into five series ,i.e. Lyman , Balmer,Paschen ,Brackett and Pfund . This may be explained as follows :
Any given sample of hydrogen contains a large number of molecules . When such a sample is heated to a high temperature or an electric discharge is passed , the hydrogen molecules split into hydrogen atoms . The electrons in different hydrogen atoms absord different amounts of energies and are excited to different energy levels. For example , the electrons in some atoms are excited to second energy level (L) , while in others they may be promoted to third (M) , fourth (N) , fifth (O) energy levels and so on . Since the lifetime of electrons in these excited states is very small , they return to some lower energy level or even to the ground state in one or more jumps . The different excited electrons adopt different routes to return to various energy levels or the ground state. As a result , they emit different amounts of energies and thus produce a large number of lines in the atomis spectrum of hydrogen .
For example , when the electron jumps from energy levels higher than n=1, i.e. n=2,3,4,5,6.....to n=1 energy level , the group of lines produced is called Lyman series. These lines lie in the ultraviolet region .
But in case of absorption spectrum , when energy falls on a normal lower excited state of an atom , the electrons jump from an inner to an outer orbit , resulting in the absorption of definite quantities of energy . If this excitation energy is obtained from a beam of light , the lines with corresponding frequencies would be missing from the spectrum of light used. Infact , lines of darkness will be seen against a background of light in such a spectrum. These dark lines against a background of light are termed as the absorption spectrum of light absorbing element .
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1.explain why there are more lines in the hydrogen emission
spectrum than in the absorption spectrum?...
For the Portfolium, the assignment is the same assignment you were given at the start of...
For the Portfolium, the assignment is the same assignment you were given at the start of the semester on chapter 7 Now though, you need to answer the same questions diagrammatically as I did in lecture. See your lecture notes. You need to indicate absorption, say from a lower energy level to a higher energy level. Then indicate emission for the same transition as through various pathways, which would then result in many more emission peaks than was in the...
Now though, you need to answer the same questions diagrammatically as I did in lecture. See...
Now though, you need to answer the same questions diagrammatically as I did in lecture. See your lecture notes. You need to indicate absorption, say from a lower energy level to a higher energy level. Then indicate emission for the same transition as through various pathways, which would then result in many more emission peaks than was in the original absorption (transition). Materials Notice the single arrow signifying complete dissociation Consider an HCl solution withe concentration of 2.5.10-5M After dissociation...
1. How many lines would be in the emission spectrum of hydrogen if the hydrogen atom...
1. How many lines would be in the emission spectrum of hydrogen if the hydrogen atom had only 4 energy levels? 2. What was the initial energy level of an electron if it was excited by a photon of wavelength 0.656µm and jumped to an energy level of 3? 3 .Calculate the frequency of visible light emitted by electron drop from n=233000 in Balmer series of hydrogen atom.
a) A photograph of an absorption spectrum is mostly bright with black spectral lines. A photograph...
a) A photograph of an absorption spectrum is mostly bright with
black spectral lines. A
photograph of an emission spectrum is black with bright spectral
lines. Why are they different? Explain
in 4-6 sentences.
b) Electron are accelerated between parallel plates in a tube
containing hydrogen gas at
ambient temperature. The potential difference across the plates
is 12.9 V. What spectral lines will be visible in the emission
spectrum? Make an energy diagram to support your answer.
380 450 590...
2. The line spectrum of helium has many more lines in it than the line spectrum...
2. The line spectrum of helium has many more lines in it than the line spectrum of hydrogen. Draw orbital energy diagrams for both H and He, showing all orbitals up through n 3. Use these diagrams to explain why helium's line spectrum is so much more complex. They should differ in more than just the number of electrons! This question is worth a lot of points, and you have a lot of space, so l expect you to give...
a) Is the energy absorption associated with bands in an infrared spectrum of higher or lower...
a) Is the energy absorption associated with bands in an infrared spectrum of higher or lower energy than the lines appearing in a visible line spectrum. Explain? b) Identify the type of energy transition occuring in a molecule that causes a band to appear in an infrared spectrum. c) Identify the type of energy transition occuring in an atom that causes a line to appear in a visible line spectrum.
Part A The bright lines of an emission spectrum are the result of View Available Hintis)...
Part A The bright lines of an emission spectrum are the result of View Available Hintis) electrons losing energy as they spiral into the nucleus of an atom electrons transitioning from a higher energy level to a lower energy level electrons being ejected from atoms electrons transitioning from a lower energy level to a higher energy level Submit Provide Feedback Part A Heisenberg's uncertainty principle tells us that View Available Hintis) the more accurately we know the position of a...
Use the following information to answer the next question/ The following diagram represents the emission lines...
Use the following information to answer the next question/ The following diagram represents the emission lines that are produced for the Balmer Series of hydrogen. Each line is produced as an electron makes a transition from a higher Bohr energy level to n-2. Balmer Series Spectral Line Wavelengths I I 300 mm 400 nm 500 nm 600 nm 700 nm The electromagnetic radiation represented by emission line I in the diagram has ai frequency than the electromagnetic radiation represented by...
chemistry b1a l ab 10 -Discussion Questions: A. Explain what the lines in element emission spectra...
chemistry b1a l
ab 10
-Discussion Questions: A. Explain what the lines in element emission spectra represent? B. What is the simplest reason why the atomic emission spectrum of helium has more lines than hydrogen? C. Label to the right where each series would fall in the electromagnetic spectrum (meaning visible, IR, UV, gamma, microwave, radio, etc. Figures 1,5 and 6 may be helpful.) Lyman Series Balmer Series Paschen Series
4 Item 4 Learning Goal: To calculate the wavelengths of the lines in the hydrogen emission...
4
Item 4 Learning Goal: To calculate the wavelengths of the lines in the hydrogen emission spectrum Atoms give off light when heated or otherwise excited! The light emitted by excited atoms consists of only a few wavelengths, rather than a full rainbow of colors. When this light is passed through a prism, the result is a series of discrete lines separated by blank areas. The visible lines in the series of the hydrogen spectrum are caused by emission of...
For the Portfolium, the assignment is the same assignment you were given at the start of the semester on chapter 7 Now though, you need to answer the same questions diagrammatically as I did in lecture. See your lecture notes. You need to indicate absorption, say from a lower energy level to a higher energy level. Then indicate emission for the same transition as through various pathways, which would then result in many more emission peaks than was in the...
Now though, you need to answer the same questions diagrammatically as I did in lecture. See your lecture notes. You need to indicate absorption, say from a lower energy level to a higher energy level. Then indicate emission for the same transition as through various pathways, which would then result in many more emission peaks than was in the original absorption (transition). Materials Notice the single arrow signifying complete dissociation Consider an HCl solution withe concentration of 2.5.10-5M After dissociation...
a) A photograph of an absorption spectrum is mostly bright with
black spectral lines. A
photograph of an emission spectrum is black with bright spectral
lines. Why are they different? Explain
in 4-6 sentences.
b) Electron are accelerated between parallel plates in a tube
containing hydrogen gas at
ambient temperature. The potential difference across the plates
is 12.9 V. What spectral lines will be visible in the emission
spectrum? Make an energy diagram to support your answer.
380 450 590...
2. The line spectrum of helium has many more lines in it than the line spectrum of hydrogen. Draw orbital energy diagrams for both H and He, showing all orbitals up through n 3. Use these diagrams to explain why helium's line spectrum is so much more complex. They should differ in more than just the number of electrons! This question is worth a lot of points, and you have a lot of space, so l expect you to give...
Part A The bright lines of an emission spectrum are the result of View Available Hintis) electrons losing energy as they spiral into the nucleus of an atom electrons transitioning from a higher energy level to a lower energy level electrons being ejected from atoms electrons transitioning from a lower energy level to a higher energy level Submit Provide Feedback Part A Heisenberg's uncertainty principle tells us that View Available Hintis) the more accurately we know the position of a...
Use the following information to answer the next question/ The following diagram represents the emission lines that are produced for the Balmer Series of hydrogen. Each line is produced as an electron makes a transition from a higher Bohr energy level to n-2. Balmer Series Spectral Line Wavelengths I I 300 mm 400 nm 500 nm 600 nm 700 nm The electromagnetic radiation represented by emission line I in the diagram has ai frequency than the electromagnetic radiation represented by...
chemistry b1a l
ab 10
-Discussion Questions: A. Explain what the lines in element emission spectra represent? B. What is the simplest reason why the atomic emission spectrum of helium has more lines than hydrogen? C. Label to the right where each series would fall in the electromagnetic spectrum (meaning visible, IR, UV, gamma, microwave, radio, etc. Figures 1,5 and 6 may be helpful.) Lyman Series Balmer Series Paschen Series
4
Item 4 Learning Goal: To calculate the wavelengths of the lines in the hydrogen emission spectrum Atoms give off light when heated or otherwise excited! The light emitted by excited atoms consists of only a few wavelengths, rather than a full rainbow of colors. When this light is passed through a prism, the result is a series of discrete lines separated by blank areas. The visible lines in the series of the hydrogen spectrum are caused by emission of...
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