the following diagrams are rough depictions of an atom, where the circles represent the different energy levels that an electron could occupy, with the new keyless at the center. straight arrows represent the motion of an electron between energy levels, while squiggly arrows will be used to represent photons.
A) Bsed on the change in energy that the electron is
undergoing at a squiggly arrow showing the photon associated with
this process i.e., is it being emitted from or observed by the
atom?). If you observed a very large number of atoms doing the same
thing depicted here, would you see an admission, absorption, or
continuous spectrum? Draw another electron transition on the
diagram that involves a photon with greater energy that the one in
the diagram. :(
B) :(
Homework Answers
a. The electron will emit a photon and jumps from higher level
to a lower level. So the type of spectrum is emission
spectrum.
the electron will emit a photon of greater energy than the 1st one and can jump to more lower level directly.
b) the electron will absorb a photon and jump to higher level from a lower level so the type of spectrum is absorptive spectrum.
No emission will possible if the electron get photon with lesser energy than the present one.
Add Answer to:
the following diagrams are rough depictions of an
atom, where the circles represent the different energy...
Help with part F nes n=4 E-0.85eV E--1.33eV 8 The energy level diagram at right shows...
Help with part F
nes n=4 E-0.85eV E--1.33eV 8 The energy level diagram at right shows the first five energy levels for an imaginary atom. A. What is the frequency of a photon that would excite the atom from the n=1 to n=4 state? n=3 E =-2.37eV n-2 Ex=-5.33eV E --21.3eV B. Now suppose that a stream of photons with the frequency you determined in part A collide with a collection of the imaginary atoms mentioned above. After an atom...
This en l agram shows the allowed energy levels of an electron in a certain atom....
This en l agram shows the allowed energy levels of an electron in a certain atom. (Note: the SI prefix 'zepto' means 10 any SI EA in the ALEKS Data tab.) . You can find the meaning of energy (23) Use this diagram to complete the table below. What is the energy of the electron in the ground state? x 5 ? What is the energy of the electron in the first excited state? If the electron makes the transition...
Considering the generic atomic orbital energy diagram; rank the three proposed electronic transitions-1s → 2s ,...
Considering the generic atomic orbital energy diagram; rank the three proposed electronic transitions-1s → 2s , 2s → 2p 34s-from lowest energy photon to highest energy photon required to induce the three proposed transitions. 9. 10. If an electronic transition from 4s3s results in emission of a "green" photon for a given elemental atom, then the electronic transition from 2s 1s would result in emission of a "red" or "blue" photon? 11. Considering the atomic orbital energy diagram in the...
f. Calculate the Calculate the energy of a photon emitted when an electrina hydrogen atom makes...
f. Calculate the Calculate the energy of a photon emitted when an electrina hydrogen atom makes transition from the n = 7 ton =2 energy level. 18 energy level an electron in I 2.18 xroll -19 in ) =-5.01x10-19 n = 6.62640 C = 3.00 x108 my Ab exctron= R (Ini? - / n ) = -5.01 t photon = -D Election - 1/²) 2. 18x10 J E photon - he (10204-.25) 1 (6.626x10 s 1 (3.00810ns). -5.01810-19 Calculate the...
3 (b) The energy of a Bohr atom in the n-th excited state is given by the formula E--a2mc2 2,7, where α-e2/(4πέρ,10hc)-1 /137, m is the electron mass and e denotes the electron electric charge. i) Wh...
3 (b) The energy of a Bohr atom in the n-th excited state is given by the formula E--a2mc2 2,7, where α-e2/(4πέρ,10hc)-1 /137, m is the electron mass and e denotes the electron electric charge. i) Why is the total energy negative? Explain briefly your answer. ii) What is the radius of the electron in the n-th excited state in the Bohr atom? To answer that correctly follow the next steps Use Bohr's angular momentum quantization principle to obtain an...
Answers for questions 1-12 please The energy level diagram for a hydrogen atom is shown. The...
Answers for questions 1-12 please
The energy level diagram for a hydrogen atom is shown. The following 000 ev questions are about the energy levels of the hydrogen atom. An0544 ev -1.51 ev 0.850 ev electron jumps from the n 5 level to the n 1 level. 1. Will this result in an emission line, or an absorption line in then-3 n 4 spectrum of this atom? 2. Which excited state did the electron start at? n-2 3.40 ev 2....
Hydrogen spectrum tube a. The light emitted in a hydrogen spectrum tube comes from isolated hydrogen...
Hydrogen spectrum tube a. The light emitted in a hydrogen spectrum tube comes from isolated hydrogen atoms excited by electricity. Is the spectrum of the light emitted by isolated atoms discrete or continuous? b. The spectrum of hydrogen is described by Rydberg's formula: , where R = 1.097 x 107m1 Based on Rydberg's formula, identify the electronic transitions (n + n) that correspond to each of the colored photons that you saw and their expected wavelengths. Compare them to the...
Enter your answer in the provided box. Consider the following energy levels of a hypothetical atom:...
Enter your answer in the provided box. Consider the following energy levels of a hypothetical atom: E4 = -1.0 x 10-19 J Ez = -5.0 x 10-19 J E2 = -1.0 10-18 J E1 = -1.5 x 10-18 J When an electron drops from the Ez level to the Elevel, the atoms are said to undergo emission. Calculate the wavelength (in nm) of the photon emitted in this process. Enter your answer in scientific notation. x 10 nm
Activity 26-5. Atomic spectra [Accompanies Section 26-5] A certain type of atom (not hydrogen) has three...
Activity 26-5. Atomic spectra [Accompanies Section 26-5] A certain type of atom (not hydrogen) has three energy levels numbered 1, 2, and 3, as shown in the upper illustration. There are three possible transitions between these levels that lead to emission of a photon: 3 → 1, 3 → 2, and 2 → 1. The lower illustration shows the emission spectrum from a gas of these atoms. There are three emission lines, A, B, and C. (a) Rank the photons...
A certain type of atom (not hydrogen) has three energy levels numbered 1, 2, and 3,...
A certain type of atom
(not hydrogen) has three energy levels numbered 1, 2, and
3, as shown in the upper illustration. There are three possible
transitions between these levels that lead to emission of a photon:
3 ® 1, 3 ® 2, and 2 ® 1.
The lower illustration shows the emission spectrum from a gas of
these atoms. There are three emission lines, A, B, and C.
(a) Rank the photons emitted in the transitions 3 ®...
Help with part F
nes n=4 E-0.85eV E--1.33eV 8 The energy level diagram at right shows the first five energy levels for an imaginary atom. A. What is the frequency of a photon that would excite the atom from the n=1 to n=4 state? n=3 E =-2.37eV n-2 Ex=-5.33eV E --21.3eV B. Now suppose that a stream of photons with the frequency you determined in part A collide with a collection of the imaginary atoms mentioned above. After an atom...
This en l agram shows the allowed energy levels of an electron in a certain atom. (Note: the SI prefix 'zepto' means 10 any SI EA in the ALEKS Data tab.) . You can find the meaning of energy (23) Use this diagram to complete the table below. What is the energy of the electron in the ground state? x 5 ? What is the energy of the electron in the first excited state? If the electron makes the transition...
Considering the generic atomic orbital energy diagram; rank the three proposed electronic transitions-1s → 2s , 2s → 2p 34s-from lowest energy photon to highest energy photon required to induce the three proposed transitions. 9. 10. If an electronic transition from 4s3s results in emission of a "green" photon for a given elemental atom, then the electronic transition from 2s 1s would result in emission of a "red" or "blue" photon? 11. Considering the atomic orbital energy diagram in the...
f. Calculate the Calculate the energy of a photon emitted when an electrina hydrogen atom makes transition from the n = 7 ton =2 energy level. 18 energy level an electron in I 2.18 xroll -19 in ) =-5.01x10-19 n = 6.62640 C = 3.00 x108 my Ab exctron= R (Ini? - / n ) = -5.01 t photon = -D Election - 1/²) 2. 18x10 J E photon - he (10204-.25) 1 (6.626x10 s 1 (3.00810ns). -5.01810-19 Calculate the...
3 (b) The energy of a Bohr atom in the n-th excited state is given by the formula E--a2mc2 2,7, where α-e2/(4πέρ,10hc)-1 /137, m is the electron mass and e denotes the electron electric charge. i) Why is the total energy negative? Explain briefly your answer. ii) What is the radius of the electron in the n-th excited state in the Bohr atom? To answer that correctly follow the next steps Use Bohr's angular momentum quantization principle to obtain an...
Answers for questions 1-12 please
The energy level diagram for a hydrogen atom is shown. The following 000 ev questions are about the energy levels of the hydrogen atom. An0544 ev -1.51 ev 0.850 ev electron jumps from the n 5 level to the n 1 level. 1. Will this result in an emission line, or an absorption line in then-3 n 4 spectrum of this atom? 2. Which excited state did the electron start at? n-2 3.40 ev 2....
Hydrogen spectrum tube a. The light emitted in a hydrogen spectrum tube comes from isolated hydrogen atoms excited by electricity. Is the spectrum of the light emitted by isolated atoms discrete or continuous? b. The spectrum of hydrogen is described by Rydberg's formula: , where R = 1.097 x 107m1 Based on Rydberg's formula, identify the electronic transitions (n + n) that correspond to each of the colored photons that you saw and their expected wavelengths. Compare them to the...
Enter your answer in the provided box. Consider the following energy levels of a hypothetical atom: E4 = -1.0 x 10-19 J Ez = -5.0 x 10-19 J E2 = -1.0 10-18 J E1 = -1.5 x 10-18 J When an electron drops from the Ez level to the Elevel, the atoms are said to undergo emission. Calculate the wavelength (in nm) of the photon emitted in this process. Enter your answer in scientific notation. x 10 nm
A certain type of atom
(not hydrogen) has three energy levels numbered 1, 2, and
3, as shown in the upper illustration. There are three possible
transitions between these levels that lead to emission of a photon:
3 ® 1, 3 ® 2, and 2 ® 1.
The lower illustration shows the emission spectrum from a gas of
these atoms. There are three emission lines, A, B, and C.
(a) Rank the photons emitted in the transitions 3 ®...
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