Question 1

The Lyman series of hydrogen corresponds to electron transitions from higher levels to n = 1.What is the longest wavelength in that series? (R = 1.097 × 10⁷ m−¹ and 1 nm = 10−⁹ m) A)91.4 nm B)122 nm C)273 nm D)456 nm

Accepted Answer

The longest wavelength in the Lyman series corresponds to the transition from n = ∞ to n = 1. Using the formula  λ = R(1/n1^2 - 1/n2^2)^-1, where n1 = 1 and n2 = ∞, we get λ = R/1 = R. Substituting the given value of R, and converting into nanometers using the given conversion factor, we get λ = 122 nm. Therefore, the answer is B.

Question 2

The ionization energy of the hydrogen atom is 13.6 eV.What is the energy of the n = 7 state?&#10;A)11.7 eV&#10;B)-11.7 eV&#10;C)0.28 eV&#10;D)-0.28 eV&#10;E)&#8203;1.94 eV

Accepted Answer

The energy levels of a hydrogen atom can be calculated using the formula $E_n = -\frac{13.6 \text{ eV}}{n^2}$, where $n$ is the principal quantum number. For $n = 7$, $E_7 = -\frac{13.6}{7^2} = -\frac{13.6}{49} \approx -0.28 \text{ eV}$.

Question 3

The Lyman series of hydrogen is made up of those transitions made from higher levels to n = 1.If the fifth line in this series has a wavelength of 94 nm,what is the wavelength of the sixth line?&#10;A)106 nm&#10;B)93 nm&#10;C)117 nm&#10;D)102 nm&#10;E)&#8203;124 nm

Accepted Answer

The Lyman series of hydrogen involves transitions to the n=1 energy level. The wavelength of these transitions can be calculated using the Rydberg formula: $ \frac{1}{\lambda} = R_H \left( \frac{1}{1^2} - \frac{1}{n^2} \right) $, where $ \lambda $ is the wavelength, $ R_H $ is the Rydberg constant for hydrogen, and $ n $ is the principal quantum number of the level from which the electron is transitioning. The fifth line corresponds to a transition from n=6 to n=1, and the sixth line corresponds to a transition from n=7 to n=1. Given the wavelength of the fifth line, the wavelength of the sixth line would be slightly longer due to the smaller energy difference between the n=7 and n=1 levels compared to the n=6 and n=1 levels. However, without performing detailed calculations and given the options, the closest and slightly longer wavelength than 94 nm is 93 nm, indicating a minor calculation or rounding discrepancy in the question's context. In reality, the wavelength should increase (become longer) as n increases, but none of the provided options correctly follow this principle based on the actual physics, suggesting a potential error in the question or answer choices.

Question 4

When a wire carries high current causing it to glow,it will emit which type of spectrum?&#10;A)line emission&#10;B)line absorption&#10;C)continuous&#10;D)monochromatic

Accepted Answer

When a wire carries high current causing it to glow, it emits a continuous spectrum which appears as a broad range of colors without any gaps or lines.

Question 5

The Paschen series of hydrogen corresponds to electron transitions from higher levels to n = 3.What is the shortest wavelength in that series? (R = 1.097 × 10⁷ m−¹ and 1 nm = 10−⁹ m) A)1875 nm B)820 nm C)1580 nm D)656 nm E)1094 nm

Accepted Answer

The answer of The Paschen series of hydrogen corresponds to...

Question 6

Of the various wavelengths emitted from a hydrogen gas discharge tube,those associated with transitions from higher levels down to the n = 2 level produce which of the following?&#10;A)infrared&#10;B)visible&#10;C)mixture of visible and ultraviolet&#10;D)ultraviolet

Accepted Answer

The transitions from higher levels down to the n = 2 level produce a mixture of visible and ultraviolet wavelengths.

Question 7

The ionization energy for the hydrogen atom is 13.6 eV.What is the energy of a photon that is emitted as a hydrogen atom makes a transition between the n = 6 and n = 4 states?&#10;A)1.13 eV&#10;B)0.47 eV&#10;C)0.09 eV&#10;D)3.40 eV&#10;E)&#8203;6.80 eV

Accepted Answer

The answer of The ionization energy for the hydrogen atom...

Question 8

What is the wavelength of the line in the Balmer series of hydrogen that is comprised of transitions from the n = 5 to the n = 2 level? (R = 1.097 × 10⁷ m−¹ and 1 nm = 10−⁹ m) A)304 nm B)434 nm C)476 nm D)95 nm E)333 nm

Accepted Answer

The wavelength of the line in the Balmer series for a transition from n = 5 to n = 2 can be calculated using the Rydberg formula: $ \frac{1}{\lambda} = R \left( \frac{1}{2^2} - \frac{1}{5^2} \right) $. Plugging in the given value for R and solving for $ \lambda $ gives a wavelength close to 434 nm.

Question 9

What is the wavelength of the line in the Paschen series of hydrogen that is comprised of transitions from the n = 5 to the n = 3 levels? (R = 1.097 × 10⁷ m−¹ and 1 nm = 10−⁹ m) A)1406 nm B)1282 nm C)684 nm D)750 nm E)365 nm

Accepted Answer

The answer of What is the wavelength of the line...

Question 10

When a high voltage is applied to a low-pressure gas causing it to glow,it will emit which type of spectrum?&#10;A)line emission&#10;B)line absorption&#10;C)continuous&#10;D)monochromatic

Accepted Answer

When a high voltage is applied to a low-pressure gas causing it to glow, it will emit a line emission spectrum. This is because the energy absorbed by the gas atoms will be re-emitted as light at specific wavelengths corresponding to the electron transitions within the atoms. The resulting spectrum is a series of sharp, discrete lines.

Question 11

The four visible colors emitted by hydrogen atoms are produced by electrons&#10;A)that start in the ground state.&#10;B)that end up in the ground state.&#10;C)that start in the level with n = 2.&#10;D)that end up in the level with n = 2.

Accepted Answer

The answer of The four visible colors emitted by hydrogen...

Question 12

The ionization energy of the hydrogen atom is 13.6 eV.What is the wavelength of a photon having this much energy? (h = 6.63 × 10−³⁴ J⋅s,c = 3.00 × 10⁸ m/s,1 eV = 1.6 × 10−¹⁹ J,and 1 nm = 10−⁹ m)

A)91.4 nm
B)136 nm
C)273 nm
D)360 nm

Accepted Answer

The answer of The ionization energy of the hydrogen atom...

Question 13

If the radius of the electron orbit in the n = 1 level of the hydrogen atoms is 0.052 9 nm,what is its radius for the n = 4 level? (Assume the Bohr model is valid).&#10;A)0.212 nm&#10;B)0.045 nm&#10;C)0.716 nm&#10;D)0.846 nm&#10;E)&#8203;0.920 nm

Accepted Answer

The answer of If the radius of the electron orbit...

Question 14

The visible lines from hydrogen are all members of the&#10;A)Lyman series.&#10;B)Balmer series.&#10;C)Paschen series.&#10;D)Brackett series.

Accepted Answer

The answer of The visible lines from hydrogen are all...

Question 15

According to the Rutherford model of the atom,most of the volume of an atom&#10;A)is empty space.&#10;B)was occupied by the nucleus.&#10;C)contained positive charges.&#10;D)excluded electrons.

Accepted Answer

The answer of According to the Rutherford model of the...

Question 16

The ionization energy of the hydrogen atom is 13.6 eV.What is the wavelength of a photon having this much energy? (h = 6.63 × 10−³⁴ J⋅s,c = 3.00 × 10⁸ m/s,1 eV = 1.6 × 10−¹⁹ J,and 1 nm = 10−⁹ m)

A)91.4 nm
B)136 nm
C)273 nm
D)360 nm

Accepted Answer

The answer of The ionization energy of the hydrogen atom...

Question 17

In contrast to Thomson's model of the atom,Rutherford's model&#10;A)had the positive charge spread uniformly through the atom.&#10;B)had the positive charge concentrated in a small region.&#10;C)was first to explain atoms emitting discrete frequencies.&#10;D)eliminated radiation from accelerating charges.

Accepted Answer

The answer of In contrast to Thomson's model of the...

Question 18

Of the various wavelengths emitted from a hydrogen gas discharge tube,those that are associated with transitions from higher levels down to the n = 1 level produce which of the following?&#10;A)infrared&#10;B)visible&#10;C)mixture of infrared and visible&#10;D)ultraviolet

Accepted Answer

The answer of Of the various wavelengths emitted from a...

Question 19

An alpha particle is&#10;A)a neutral helium atom.&#10;B)any positively charged nucleus.&#10;C)an x-ray.&#10;D)None of the above.

Accepted Answer

The answer of An alpha particle is&#10;A)a neutral helium atom.&#10;B)any...

Question 20

When a cool gas is placed between a glowing wire filament source and a diffraction grating,the resultant spectrum from the grating is which one of the following?&#10;A)line emission&#10;B)line absorption&#10;C)continuous&#10;D)monochromatic

Accepted Answer

The answer of When a cool gas is placed between...

Question 21

In the hydrogen atom the potential energy is negative,but the absolute value of the potential energy A)is equal to the kinetic energy of the electron. B)is twice the kinetic energy of the electron. C)is half the kinetic energy of the electron. D)is equal to n² times the kinetic energy of the electron.

Accepted Answer

The answer of In the hydrogen atom the potential energy...

Question 22

The Bohr model of the hydrogen atom accounts for which quantum number?&#10;A)principal&#10;B)orbital&#10;C)orbital magnetic&#10;D)All of the above.

Accepted Answer

The answer of The Bohr model of the hydrogen atom...

Question 23

In an analysis relating Bohr's theory to the de Broglie wavelength of electrons,when an electron moves from the n = 1 level to the n = 2 level,the circumference for its orbit becomes 4 times greater.This occurs because

A)there are four times as many wavelengths in the new orbit.
B)the wavelength of the electron becomes four times as long.
C)there are twice as many wavelengths,and each wavelength is twice as long.
D)the electron is moving four times as fast.

Accepted Answer

The answer of In an analysis relating Bohr's theory to...

Question 24

The quantum mechanical model of the hydrogen atom requires that if the orbital quantum number = 4,there will be how many permitted orbital magnetic quantum numbers allowed?&#10;A)3&#10;B)4&#10;C)8&#10;D)9&#10;E)&#8203;16

Accepted Answer

The answer of The quantum mechanical model of the hydrogen...

Question 25

A muon behaves like an electron except that it has 207 times the mass of the electron.If a muon were bound to a proton,how would the energy levels in the Bohr model compare to those for a bound electron?

A)They would be the same.
B)They would be (207)² times as much as those for the electron.
C)They would be 207 times as much as those for the electron.
D)They would be (1/207)times as much as those for the electron.

Accepted Answer

The answer of A muon behaves like an electron except...

Question 26

A hydrogen atom in the ground state absorbs a 13.32-eV photon.To what level is the electron promoted? (The ionization energy of hydrogen is 13.6 eV).&#10;A)n = 6&#10;B)n = 10&#10;C)n = 7&#10;D)n = 5&#10;E)&#8203;n = 11

Accepted Answer

The answer of A hydrogen atom in the ground state...

Question 27

An energy of 13.6 eV is needed to remove an electron from the n = 3 state of a lithium atom.If a single photon accomplishes this task,what wavelength is needed? (h = 6.63 × 10−³⁴ J⋅s,c = 3.00 × 10⁸ m/s,1 eV = 1.6 × 10−¹⁹ J,and 1 nm = 10−⁹ m)

A)146.3 nm
B)30.5 nm
C)13.8 nm
D)91.4 nm
E)234 nm

Accepted Answer

The answer of An energy of 13.6 eV is needed...

Question 28

The quantum mechanical model of the hydrogen atom requires that if the principal quantum number is 6,there will be how many different permitted orbital quantum number(s)?&#10;A)5&#10;B)12&#10;C)6&#10;D)36&#10;E)&#8203;13

Accepted Answer

The answer of The quantum mechanical model of the hydrogen...

Question 29

The quantum mechanical model of the hydrogen atom requires that if the orbital quantum number of the hydrogen atom is 7,there will be how many permitted orbital magnetic quantum numbers?&#10;A)6&#10;B)7&#10;C)14&#10;D)15&#10;E)&#8203;49

Accepted Answer

The answer of The quantum mechanical model of the hydrogen...

Question 30

What is the energy needed to change an He⁺ ion into an He⁺⁺ ion? (The ionization energy of hydrogen is 13.6 eV). A)13.6 eV B)54.4 eV C)92.9 eV D)112.4 eV

Accepted Answer

The answer of What is the energy needed to change...

Question 31

A photon is emitted from a hydrogen atom that undergoes a transition from n = 3 to n = 2.Calculate the energy and wavelength of the photon.(The ionization energy of hydrogen is 13.6 eV,and h = 6.63 × 10−³⁴ J⋅s,c = 3.00 × 10⁸ m/s,1 eV = 1.60 × 10−¹⁹ J,and 1 nm = 10−⁹ m)

A)1.9 eV,660 nm
B)1.9 eV,1050 nm
C)2.3 eV,550 nm
D)2.3 eV,660 nm
E)2.3 eV,1050 nm

Accepted Answer

The answer of A photon is emitted from a hydrogen...

Question 32

Consider the hydrogen atom,singly ionized helium atom,and the doubly ionized lithium atom.Arrange these atoms from highest energy ground state to lowest energy ground state. A)H,He⁺,Li⁺⁺ B)Li⁺⁺,He⁺,H C)H,Li⁺⁺,He⁺ D)Since each of these atoms has only one electron,they all have the same energy ground state.

Accepted Answer

The answer of Consider the hydrogen atom,singly ionized helium atom,and...

Question 33

Which of the following transitions in hydrogen from an initial state (n_i)to a final state (n_f)results in the most energy emitted? A)n_i = 80,n_f = 2 B)n_i = 3,n_f = 95 C)n_i = 2,n_f = 1 D)n_i = 1,n_f = 3

Accepted Answer

The answer of Which of the following transitions in hydrogen...

Question 34

The quantum mechanical model of the hydrogen atom requires that if the principal quantum number = 4,there will be how many permitted orbital quantum numbers?&#10;A)2&#10;B)4&#10;C)8&#10;D)16&#10;E)&#8203;32

Accepted Answer

The answer of The quantum mechanical model of the hydrogen...

Question 35

The quantum mechanical model of the hydrogen atom requires that if the orbital magnetic quantum number is 3,there will be how many permitted spin magnetic quantum numbers?&#10;A)2&#10;B)3&#10;C)4&#10;D)6&#10;E)&#8203;7

Accepted Answer

The answer of The quantum mechanical model of the hydrogen...

Question 36

Using quantum theories to study the hydrogen atom allows the prediction and experimental verification of many data about atoms such as He⁺ and Li²⁺.Some quantities that can successfully be predicted about He⁺ and Li²⁺ in this manner are:

A)the color of the light they will emit.
B)their mass.
C)their abundance in nature.
D)All of the above.

Accepted Answer

The answer of Using quantum theories to study the hydrogen...

Question 37

The emission of a line from the Balmer series is followed almost immediately by the emission of a line from the Lyman series.This will be true for&#10;A)only the first line of the Balmer series and the first line of the Lyman series.&#10;B)all the lines of the Balmer series followed by only the first line of the Lyman series.&#10;C)only the first line of the Balmer series followed by any of the lines of the Lyman series.&#10;D)all the lines of the Balmer series followed by any of the lines of the Lyman series.

Accepted Answer

The answer of The emission of a line from the...

Question 38

If a hydrogen atom,originally in its ground state of energy -13.6 eV,absorbs a photon of energy 15.9 eV,what is the resulting kinetic energy of the electron if the proton has negligible kinetic energy?

A)13.6 eV
B)-2.30 eV
C)2.30 eV
D)15.9 eV
E)Such a photon cannot be absorbed in this case.

Accepted Answer

The answer of If a hydrogen atom,originally in its ground...

Question 39

The speed of the electron in the Bohr theory of hydrogen is A)proportional to n. B)proportional to n². C)inversely proportional to n. D)inversely proportional to n².

Accepted Answer

The answer of The speed of the electron in the...

Question 40

The Bohr theory does not predict that A)hydrogen atoms will give off the lines from the Balmer series. B)the ground state of hydrogen is spherically symmetric. C)it requires 13.6 eV to ionize hydrogen. D)the approximate radius of a hydrogen atom is 5.3 × 10−¹¹ m.

Accepted Answer

The answer of The Bohr theory does not predict that&#10;A)hydrogen...

Question 41

The quantum number that can have only two possible values is the&#10;A)principal quantum number.&#10;B)orbital quantum number.&#10;C)orbital magnetic quantum number.&#10;D)spin magnetic quantum number.

Accepted Answer

The answer of The quantum number that can have only...

Question 42

What is the maximum number of electrons that can occupy a 3d subshell?&#10;A)5&#10;B)14&#10;C)10&#10;D)18

Accepted Answer

The answer of What is the maximum number of electrons...

Question 43

The quantum mechanical model of the hydrogen atom requires that if the principal quantum number = 5,there will be how many permitted orbital magnetic quantum numbers?&#10;A)4&#10;B)5&#10;C)10&#10;D)9&#10;E)&#8203;11

Accepted Answer

The answer of The quantum mechanical model of the hydrogen...

Question 44

For the n = 5 shell,what are the lowest values possible for  &#10;And  &#10;Respectively?&#10;A)-5,-5&#10;B)&#8722;4,-4&#10;C)0,-4&#10;D)0,0

Accepted Answer

The answer of For the n = 5 shell,what are...

Question 45

Imagine that an electron had a spin of 5/2 so that its spin quantum number,m_s,could have the following six values: m_s = +5/2,+3/2,+1/2,-1/2,-3/2,and -5/2.If this were true,the first element with a filled shell would be

A)He with 2 electrons.
B)Be with 4 electrons.
C)C with 6 electrons.
D)O with 8 electrons.

Accepted Answer

The answer of Imagine that an electron had a spin...

Question 46

In the n = 4 shell,how many distinct values of  &#10;Are possible?&#10;A)4&#10;B)8&#10;C)9&#10;D)The correct value is not given.

Accepted Answer

The answer of In the n = 4 shell,how many...

Question 47

How many electrons are in chlorine's (atomic number 17)next to outer shell (n = 2)?&#10;A)18&#10;B)4&#10;C)2&#10;D)8

Accepted Answer

The answer of How many electrons are in chlorine's (atomic...

Question 48

If the principal quantum number for hydrogen is 7,which one of the following is not a permitted orbital magnetic quantum number for that atom?&#10;A)10&#10;B)-2&#10;C)0&#10;D)5&#10;E)&#8203;3

Accepted Answer

The answer of If the principal quantum number for hydrogen...

Question 49

The quantity ________,where Ψ is the wave function,represents the probability per unit volume of finding an electron in that volume. A)Ψ^1/2 B)Ψ C)Ψ^3/2 D)Ψ²

Accepted Answer

The answer of The quantity ________,where &#936; is the wave...

Question 50

How many electrons are in chromium's (atomic number 24)next to outer shell (n = 3)?&#10;A)1&#10;B)14&#10;C)12&#10;D)13&#10;E)&#8203;8

Accepted Answer

The answer of How many electrons are in chromium's (atomic...

Question 51

The ground state configuration for an element is 1s²2s²2p⁶3s²3p¹.What is the atomic number of the element? A)11 B)9 C)24 D)13

Accepted Answer

The answer of The ground state configuration for an element...

Question 52

The restriction that no more than one electron may occupy a given quantum state in an atom was first stated by which of the following scientists?&#10;A)Bohr&#10;B)de Broglie&#10;C)Heisenberg&#10;D)Pauli

Accepted Answer

The answer of The restriction that no more than one...

Question 53

Magnesium has atomic number 12.In its ground state,how many electrons are in its n = 3 shell?&#10;A)2&#10;B)8&#10;C)16&#10;D)10

Accepted Answer

The answer of Magnesium has atomic number 12.In its ground...

Question 54

The x-rays that occur when a high energy electron beam is incident on a metal target will show what type of spectrum?&#10;A)continuous&#10;B)line&#10;C)continuous spectrum superimposed with a line spectrum&#10;D)absorption

Accepted Answer

The answer of The x-rays that occur when a high...

Question 55

The ground state electronic configuration for silicon is 1s²2s²2p⁶3s²3p².Which of the following elements would be expected to be chemically similar to silicon? A)boron with configuration 1s²2s²2p¹ B)lithium with configuration 1s²2s¹ C)carbon with configuration 1s²2s²2p² D)sodium with configuration 1s²2s²2p⁶3s¹

Accepted Answer

The answer of The ground state electronic configuration for silicon...

Question 56

Aluminium has atomic number 13.In its ground state,how many electrons are in its n = 1 shell?&#10;A)6&#10;B)2&#10;C)3&#10;D)10&#10;E)&#8203;16

Accepted Answer

The answer of Aluminium has atomic number 13.In its ground...

Question 57

If the energy for the ground state level (n = 1)of hydrogen is &#8722;13.6 eV,which of the following gives an approximate value for the energy of an electron of the K shell (n = 1)of the element beryllium for which the atomic number = 4?&#10;A)-122 eV&#10;B)-40.8 eV&#10;C)-218 eV&#10;D)-54.4 eV&#10;E)&#8203;-40.8 eV

Accepted Answer

The answer of If the energy for the ground state...

Question 58

The quantum mechanical model of the hydrogen atom suggests a visual picture of the electron as which of the following?&#10;A)raisin in pudding&#10;B)probability cloud&#10;C)planetary orbiting body&#10;D)light quantum

Accepted Answer

The answer of The quantum mechanical model of the hydrogen...

Question 59

The ground state electronic configuration for sodium is 1s²2s²2p⁶3s¹.What is the orbital quantum number of the last (3s¹)electron? A)3 B)1 C)2 D)0

Accepted Answer

The answer of The ground state electronic configuration for sodium...

Question 60

In a plot of probability of finding the electron in the hydrogen ground state versus the distance from the nucleus,the maximum occurs A)at a₀,the first Bohr radius. B)at slightly less than a₀. C)at slightly more than a₀. D)at 2 a₀.

Accepted Answer

The answer of In a plot of probability of finding...

Question 61

Which of the following demonstrated the relation between the atomic number of a given element and the wavelength of the K-alpha x-ray photon emitted by that element?&#10;A)Bohr&#10;B)Compton&#10;C)Moseley&#10;D)Pauli

Accepted Answer

The answer of Which of the following demonstrated the relation...

Question 62

The red light from a HeNe laboratory laser results from a transition in Ne.Determine the wavelength of the light given off if the energy difference between states is 1.08 eV.(h = 6.63 × 10−³⁴ J⋅s,c = 3.00 × 10⁸ m/s,1 eV = 1.60 × 10−¹⁹ J,and 1 nm = 10−⁹ m) A)383 nm B)1840 nm C)1150 nm D)1340 nm E)203 nm

Accepted Answer

The answer of The red light from a HeNe laboratory...

Question 63

The wavelength of coherent ruby laser light is 694 nm.What energy difference exists between the upper excited state involved and the lower unexcited ground state? (h = 6.63 × 10−³⁴ J⋅s,c = 3.00 × 10⁸ m/s,1 eV = 1.60 × 10−¹⁹ J,and 1 nm = 10−⁹ m) A)0.56 eV B)1.79 eV C)1.67 eV D)2.87 eV E)0.35 eV

Accepted Answer

The answer of The wavelength of coherent ruby laser light...

Question 64

For which of the following transitions in a hydrogen atom free of external fields does the electron energy increase?&#8203;&#10;A)&#8203;The electron moves from n = 2 to n = 1.&#10;B)The electron moves from n = 3 to n = 5.&#10;C)&#8203;Within the n = 4,l = 2 sublevel,the electron moves from   = -1 to   = +1.&#10;D)&#8203;Within the n = 3 level,the electron moves from   = 2 to   = -2.

Accepted Answer

The answer of For which of the following transitions in...

Deck 28: Atomic Physics