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Deck 7: The Quantum-Mechanical Model of the Atom
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Deck 7: The Quantum-Mechanical Model of the Atom
1
On the electromagnetic spectrum,visible light is immediately between two other wavelengths.Name them.
A)infrared and X-ray
B)radio and microwave
C)gamma ray and ultraviolet
D)microwave and X-ray
E)infrared and ultraviolet
A)infrared and X-ray
B)radio and microwave
C)gamma ray and ultraviolet
D)microwave and X-ray
E)infrared and ultraviolet
infrared and ultraviolet
2
Calculate the wavelength (in nm)of the red light emitted by a neon sign with a frequency of 4.74 × 1014 Hz.
A)633 nm
B)158 nm
C)142 nm
D)704 nm
E)466 nm
A)633 nm
B)158 nm
C)142 nm
D)704 nm
E)466 nm
633 nm
3
Which of the following types of electromagnetic radiation has the lowest frequency?
A)yellow
B)blue
C)orange
D)green
E)purple
A)yellow
B)blue
C)orange
D)green
E)purple
orange
4
Which of the following visible colours of light has the longest wavelength?
A)blue
B)green
C)yellow
D)red
E)violet
A)blue
B)green
C)yellow
D)red
E)violet
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5
A sunburn is caused by overexposure to ________ radiation.
A)ultraviolet
B)gamma
C)microwave
D)X-ray
E)radio
A)ultraviolet
B)gamma
C)microwave
D)X-ray
E)radio
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6
Which of the following occurs as the energy of a photon increases?
A)The frequency decreases.
B)The speed increases.
C)The wavelength increases.
D)The wavelength gets shorter.
A)The frequency decreases.
B)The speed increases.
C)The wavelength increases.
D)The wavelength gets shorter.
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7
The vertical height of a wave is called
A)wavelength.
B)amplitude.
C)frequency.
D)area.
E)median.
A)wavelength.
B)amplitude.
C)frequency.
D)area.
E)median.
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8
The number of cycles that pass through a stationary point per unit time is called
A)wavelength.
B)amplitude.
C)frequency.
D)area.
E)median.
A)wavelength.
B)amplitude.
C)frequency.
D)area.
E)median.
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9
When waves of equal amplitude from two sources are out of phase when they interact,it is called
A)destructive interference.
B)diffraction.
C)constructive interference.
D)effusion.
E)amplitude.
A)destructive interference.
B)diffraction.
C)constructive interference.
D)effusion.
E)amplitude.
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10
Calculate the frequency of the red light emitted by a neon sign with a wavelength of 659.9 nm.
A)2.20 × 1014 s-1
B)1.98 × 1014 s-1
C)4.55 × 1014 s-1
D)5.05 × 1014 s-1
E)3.32 × 1014 s-1
A)2.20 × 1014 s-1
B)1.98 × 1014 s-1
C)4.55 × 1014 s-1
D)5.05 × 1014 s-1
E)3.32 × 1014 s-1
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11
Food can be cooked by ________ radiation.
A)ultraviolet
B)gamma
C)microwave
D)X-ray
E)radio
A)ultraviolet
B)gamma
C)microwave
D)X-ray
E)radio
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12
Identify the colour that has a wavelength of 460 nm.
A)blue
B)green
C)red
D)yellow
A)blue
B)green
C)red
D)yellow
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13
Place the following types of electromagnetic radiation in order of increasing frequency. visible light microwaves X-rays
A)microwaves < visible light < X-rays
B)X-rays < visible light < microwaves
C)microwaves < X-rays < visible light
D)X-rays < microwaves < visible light
E)visible light < X-rays < microwaves
A)microwaves < visible light < X-rays
B)X-rays < visible light < microwaves
C)microwaves < X-rays < visible light
D)X-rays < microwaves < visible light
E)visible light < X-rays < microwaves
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14
Place the following types of electromagnetic radiation in order of decreasing energy. ultraviolet light radio waves microwaves
A)radio waves > microwaves > ultraviolet light
B)ultraviolet light > microwaves > radio waves
C)radio waves > ultraviolet light > microwaves
D)ultraviolet light > radio waves > microwaves
E)microwaves > radio waves > ultraviolet light
A)radio waves > microwaves > ultraviolet light
B)ultraviolet light > microwaves > radio waves
C)radio waves > ultraviolet light > microwaves
D)ultraviolet light > radio waves > microwaves
E)microwaves > radio waves > ultraviolet light
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15
Which of the following occurs as the wavelength of a photon increases?
A)The frequency decreases.
B)The energy increases.
C)The speed decreases.
D)Planck's constant decreases.
E)None of the above occurs as the wavelength of a photon increases.
A)The frequency decreases.
B)The energy increases.
C)The speed decreases.
D)Planck's constant decreases.
E)None of the above occurs as the wavelength of a photon increases.
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16
Identify the colour that has a wavelength of 700 nm.
A)blue
B)green
C)red
D)yellow
A)blue
B)green
C)red
D)yellow
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17
Which of the following colours of electromagnetic radiation has the shortest wavelength?
A)blue
B)violet
C)orange
D)green
E)yellow
A)blue
B)violet
C)orange
D)green
E)yellow
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18
Place the following types of electromagnetic radiation in order of increasing wavelength. ultraviolet light gamma rays radio waves
A)gamma rays < radio waves < ultraviolet light
B)radio waves < ultraviolet light < gamma rays
C)radio waves < gamma rays < ultraviolet light
D)ultraviolet light < gamma rays < radio waves
E)gamma rays < ultraviolet light < radio waves
A)gamma rays < radio waves < ultraviolet light
B)radio waves < ultraviolet light < gamma rays
C)radio waves < gamma rays < ultraviolet light
D)ultraviolet light < gamma rays < radio waves
E)gamma rays < ultraviolet light < radio waves
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19
Which of the following visible colours of light has the highest frequency?
A)green
B)red
C)blue
D)yellow
E)orange
A)green
B)red
C)blue
D)yellow
E)orange
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20
Calculate the wavelength (in nm)of the blue light emitted by a mercury lamp with a frequency of 6.88 × 1014 Hz.
A)229 nm
B)436 nm
C)206 nm
D)485 nm
E)675 nm
A)229 nm
B)436 nm
C)206 nm
D)485 nm
E)675 nm
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21
Which of the following transitions (in a hydrogen atom)represent absorption of the smallest frequency photon?
A)n = 5 to n = 6
B)n = 5 to n = 4
C)n = 4 to n = 1
D)n = 1 to n = 3
E)n = 1 to n = 2
A)n = 5 to n = 6
B)n = 5 to n = 4
C)n = 4 to n = 1
D)n = 1 to n = 3
E)n = 1 to n = 2
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22
Calculate the energy of the orange light emitted,per photon,by a neon sign with a frequency of 4.89 × 1014 Hz.
A)3.09 × 10-19 J
B)6.14 × 10-19 J
C)3.24 × 10-19 J
D)1.63 × 10-19 J
E)5.11 × 10-19 J
A)3.09 × 10-19 J
B)6.14 × 10-19 J
C)3.24 × 10-19 J
D)1.63 × 10-19 J
E)5.11 × 10-19 J
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23
It is possible to determine the ionization energy for hydrogen using the Bohr equation.Calculate the ionization energy for an atom of hydrogen,making the assumption that ionization is the transition from n = 1 to n = ∞.
A)-2.18 × 10-18 J
B)+2 .18 × 10-18 J
C)+4.59 × 10-18 J
D)-4.59 × 10-18 J
E)+4.36 × 10-18 J
A)-2.18 × 10-18 J
B)+2 .18 × 10-18 J
C)+4.59 × 10-18 J
D)-4.59 × 10-18 J
E)+4.36 × 10-18 J
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24
Which of the following transitions represent the emission of a photon with the largest energy?
A)n = 2 to n = 1
B)n = 3 to n = 1
C)n = 6 to n = 3
D)n = 1 to n = 4
E)n = 2 to n = 5
A)n = 2 to n = 1
B)n = 3 to n = 1
C)n = 6 to n = 3
D)n = 1 to n = 4
E)n = 2 to n = 5
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25
Which of the following transitions (in a hydrogen atom)represent emission of the longest wavelength photon?
A)n = 1 to n = 2
B)n = 3 to n = 1
C)n = 3 to n = 4
D)n = 4 to n = 2
E)n = 5 to n = 4
A)n = 1 to n = 2
B)n = 3 to n = 1
C)n = 3 to n = 4
D)n = 4 to n = 2
E)n = 5 to n = 4
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26
How many photons are contained in a burst of yellow light (589 nm)from a sodium lamp that contains 609 kJ of energy?
A)3.37 × 1019 photons
B)3.06 × 1030 photons
C)1.80 × 1024 photons
D)4.03 × 1028 photons
E)2.48 × 1025 photons
A)3.37 × 1019 photons
B)3.06 × 1030 photons
C)1.80 × 1024 photons
D)4.03 × 1028 photons
E)2.48 × 1025 photons
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27
Calculate the frequency of the green light emitted by a hydrogen atom with a wavelength of 486.1 nm.
A)1.462 × 1014 s-1
B)6.868 × 1014 s-1
C)4.332 × 1014 s-1
D)6.172 × 1014 s-1
E)1.626 × 1014 s-1
A)1.462 × 1014 s-1
B)6.868 × 1014 s-1
C)4.332 × 1014 s-1
D)6.172 × 1014 s-1
E)1.626 × 1014 s-1
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28
Calculate the wavelength of light emitted from a hydrogen atom when an electron undergoes an n = 8 to n = 4 transmission.
A)1940 nm
B)2620 nm
C)1.245 × 103 nm
D)3.178 × 103 nm
E)714.8 nm
A)1940 nm
B)2620 nm
C)1.245 × 103 nm
D)3.178 × 103 nm
E)714.8 nm
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29
Calculate the wavelength of light absorbed by a hydrogen atom when an electron undergoes an n = 2 to n = 4 transmission.
A)433.9 nm
B)410.0 nm
C)1093 nm
D)486.0 nm
E)3295 nm
A)433.9 nm
B)410.0 nm
C)1093 nm
D)486.0 nm
E)3295 nm
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30
Choose the transition (in a hydrogen atom)below which represents the absorption of the shortest wavelength photon.
A)n = 1 to n = 2
B)n = 2 to n = 3
C)n = 4 to n = 5
D)n = 6 to n = 3
E)n = 3 to n = 1
A)n = 1 to n = 2
B)n = 2 to n = 3
C)n = 4 to n = 5
D)n = 6 to n = 3
E)n = 3 to n = 1
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31
Identify the colour of a flame test for sodium.
A)violet
B)red
C)white
D)yellow
E)blue
A)violet
B)red
C)white
D)yellow
E)blue
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32
Determine the longest wavelength of light required to remove an electron from a sample of potassium metal if the binding energy for an electron in K is 1.76 × 103 kJ mol-1.
A)147 nm
B)68.0 nm
C)113 nm
D)885 nm
E)387 nm
A)147 nm
B)68.0 nm
C)113 nm
D)885 nm
E)387 nm
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33
Identify the colour of a flame test for potassium.
A)violet
B)red
C)white
D)yellow
E)blue
A)violet
B)red
C)white
D)yellow
E)blue
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34
Determine the shortest frequency of light required to remove an electron from a sample of Ti metal if the binding energy of titanium is 3.14 × 103 kJ mol-1.
A)7.87 × 1015 Hz
B)4.74 × 1015 Hz
C)2.11 × 1015 Hz
D)1.27 × 1015 Hz
E)6.19 × 1015 Hz
A)7.87 × 1015 Hz
B)4.74 × 1015 Hz
C)2.11 × 1015 Hz
D)1.27 × 1015 Hz
E)6.19 × 1015 Hz
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35
What total energy (in kJ)is contained in 1.0 mol of photons,all with a frequency of 2.75 × 1014 Hz?
A)182 kJ
B)219 kJ
C)457 kJ
D)326 kJ
E)110 kJ
A)182 kJ
B)219 kJ
C)457 kJ
D)326 kJ
E)110 kJ
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36
How much energy (in kJ)do 3.0 moles of photons,all with a wavelength of 655 nm,contain?
A)183 kJ
B)303 kJ
C)394 kJ
D)548 kJ
E)254 kJ
A)183 kJ
B)303 kJ
C)394 kJ
D)548 kJ
E)254 kJ
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37
Calculate the energy of the green light emitted,per photon,by a mercury lamp with a frequency of 5.49 × 1014 Hz.
A)2.75 × 10-19 J
B)3.64 × 10-19 J
C)5.46 × 10-19 J
D)1.83 × 10-19 J
E)4.68 × 10-19 J
A)2.75 × 10-19 J
B)3.64 × 10-19 J
C)5.46 × 10-19 J
D)1.83 × 10-19 J
E)4.68 × 10-19 J
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38
Calculate the energy of the red light emitted by a neon atom with a wavelength of 703 nm.
A)3.54 × 10-19 J
B)4.27 × 10-19 J
C)2.34 × 10-19 J
D)6.45 × 10-19 J
E)2.83 × 10-19 J
A)3.54 × 10-19 J
B)4.27 × 10-19 J
C)2.34 × 10-19 J
D)6.45 × 10-19 J
E)2.83 × 10-19 J
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39
Calculate the energy of the violet light emitted by a hydrogen atom with a wavelength of 410 nm.
A)4.84 × 10-19 J
B)2.06 × 10-19 J
C)1.23 × 10-19 J
D)8.13 × 10-19 J
E)5.27 × 10-19 J
A)4.84 × 10-19 J
B)2.06 × 10-19 J
C)1.23 × 10-19 J
D)8.13 × 10-19 J
E)5.27 × 10-19 J
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40
How many photons are contained in a flash of green light (525 nm)that contains 189 kJ of energy?
A)5.67 × 1023 photons
B)2.01 × 1024 photons
C)1.25 × 1031 photons
D)4.99 × 1023 photons
E)7.99 × 1030 photons
A)5.67 × 1023 photons
B)2.01 × 1024 photons
C)1.25 × 1031 photons
D)4.99 × 1023 photons
E)7.99 × 1030 photons
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41
Calculate the wavelength of a baseball (m = 155 g)moving at 32.5 m s-1.
A)7.60 × 10-36 m
B)1.32 × 10-34 m
C)2.15 × 10-32 m
D)2.68 × 10-34 m
E)3.57 × 10-32 m
A)7.60 × 10-36 m
B)1.32 × 10-34 m
C)2.15 × 10-32 m
D)2.68 × 10-34 m
E)3.57 × 10-32 m
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42
Calculate the frequency of light associated with the transition from n = 2 to n = 3 in the hydrogen atom.
A)2.19 × 1014 s-1
B)5.59 × 1014 s-1
C)4.57 × 1014 s-1
D)1.79 × 1014 s-1
E)3.28 × 1014 s-1
A)2.19 × 1014 s-1
B)5.59 × 1014 s-1
C)4.57 × 1014 s-1
D)1.79 × 1014 s-1
E)3.28 × 1014 s-1
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43
An electron initially in the n = 2 orbital of a hydrogen atom absorbs a photon with a wavelength of 656 nm.Calculate the final orbital,nf.
A)3
B)5
C)2
D)4
E)6
A)3
B)5
C)2
D)4
E)6
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44
Calculate the wavelength of an electron (m = 9.11 × 10-28 g)moving at 3.66 × 106 m s-1.
A)1.99 × 10-10 m
B)5.03 × 10-10 m
C)1.81 × 10-10 m
D)5.52 × 10-9 m
E)2.76 × 10-9 m
A)1.99 × 10-10 m
B)5.03 × 10-10 m
C)1.81 × 10-10 m
D)5.52 × 10-9 m
E)2.76 × 10-9 m
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45
Calculate the energy change associated with the transition from n = 4 to n = 1 in the hydrogen atom.
A)+4.89 × 10-18 J
B)+1.64 × 10-18 J
C)-6.12 × 10-18 J
D)+3.55 × 10-18 J
E)-2.04 × 10-18 J
A)+4.89 × 10-18 J
B)+1.64 × 10-18 J
C)-6.12 × 10-18 J
D)+3.55 × 10-18 J
E)-2.04 × 10-18 J
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46
Determine the end (final)value of n in a hydrogen atom transition if the electron starts in n = 4 and the atom emits a photon of light with a wavelength of 486 nm.
A)1
B)5
C)3
D)4
E)2
A)1
B)5
C)3
D)4
E)2
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47
How much energy (in kJ)is required to ionize 2.78 moles of hydrogen atoms?
A)2.74 × 103 kJ
B)4.72 × 103 kJ
C)1.66 × 103 kJ
D)3.65 × 103 kJ
E)5.89 × 103 kJ
A)2.74 × 103 kJ
B)4.72 × 103 kJ
C)1.66 × 103 kJ
D)3.65 × 103 kJ
E)5.89 × 103 kJ
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48
Determine the energy change associated with the transition from n = 2 to n = 5 in the hydrogen atom.
A)-2.18 × 10-19 J
B)+6.54 × 10-19 J
C)+4.58 × 10-19 J
D)-1.53 × 10-19 J
E)+3.76 × 10-19 J
A)-2.18 × 10-19 J
B)+6.54 × 10-19 J
C)+4.58 × 10-19 J
D)-1.53 × 10-19 J
E)+3.76 × 10-19 J
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49
Determine the energy change associated with the transition from n = 3 to n = 2 in the hydrogen atom.
A)+3.03 × 10-19 J
B)-1.82 × 10-19 J
C)+5.51 × 10-19 J
D)-3.03 × 10-19 J
E)+2.69 × 10-19 J
A)+3.03 × 10-19 J
B)-1.82 × 10-19 J
C)+5.51 × 10-19 J
D)-3.03 × 10-19 J
E)+2.69 × 10-19 J
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50
An electron ends in orbital n = 4 after a hydrogen atom emits a photon with a wavelength of 2165 nm.Calculate the initial orbital,ni.
A)6
B)7
C)1
D)3
E)2
A)6
B)7
C)1
D)3
E)2
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51
Calculate the wavelength of light associated with the transition from n = 1 to n = 3 in the hydrogen atom.
A)103 nm
B)155 nm
C)646 nm
D)971 nm
E)136 nm
A)103 nm
B)155 nm
C)646 nm
D)971 nm
E)136 nm
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52
Calculate the final orbital,nf,of an electron in a hydrogen atom that starts at orbital n = 4 and undergoes an energy transition of -1.06 × 10-19 J.
A)3
B)4
C)2
D)5
E)1
A)3
B)4
C)2
D)5
E)1
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53
Determine the end (final)value of n in a hydrogen atom transition if the electron starts in n = 1 and the atom absorbs a photon of light with an energy of 2.044 × 10-18 J.
A)3
B)4
C)2
D)5
E)6
A)3
B)4
C)2
D)5
E)6
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54
An electron ends in orbital n = 4 after a hydrogen atom absorbs a photon with a wavelength of 486 nm.Calculate the initial orbital,ni.
A)1
B)5
C)2
D)3
E)6
A)1
B)5
C)2
D)3
E)6
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55
Determine the velocity of a marble (m = 8.66 g)with a wavelength of 3.46 × 10-33 m.
A)45.2 m s-1
B)11.3 m s-1
C)22.1 m s-1
D)38.8 m s-1
E)52.9 m s-1
A)45.2 m s-1
B)11.3 m s-1
C)22.1 m s-1
D)38.8 m s-1
E)52.9 m s-1
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56
Calculate the energy associated with an n = 2 to n = 5 transmission in a hydrogen atom.
A)9.176 × 10-20 J
B)1.977 × 10-19 J
C)5.005 × 10-19 J
D)4.844 × 10-19 J
E)4.578 × 10-19 J
A)9.176 × 10-20 J
B)1.977 × 10-19 J
C)5.005 × 10-19 J
D)4.844 × 10-19 J
E)4.578 × 10-19 J
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57
An electron initially in the n = 5 orbital of a hydrogen atom emits a photon with a wavelength of 1284 nm.Calculate the final orbital,nf.
A)1
B)3
C)2
D)6
E)4
A)1
B)3
C)2
D)6
E)4
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58
An electron ends in orbital n = 3 after a hydrogen atom emits a photon with a wavelength of 1093 nm.Calculate the initial orbital,ni.
A)1
B)5
C)2
D)3
E)6
A)1
B)5
C)2
D)3
E)6
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59
It is possible to determine the ionization energy for hydrogen using the Bohr equation.Calculate the ionization energy (in kJ)for a mole of hydrogen atoms,making the assumption that ionization is the transition from n = 1 to n = ∞.
A)7.62 × 103 kJ
B)2.76 × 103 kJ
C)1.31 × 103 kJ
D)3.62 × 103 kJ
E)5.33 × 103 kJ
A)7.62 × 103 kJ
B)2.76 × 103 kJ
C)1.31 × 103 kJ
D)3.62 × 103 kJ
E)5.33 × 103 kJ
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60
Determine the end (final)value of n in a hydrogen atom transition if the electron starts in n = 2 and the atom absorbs a photon of light with a frequency of 4.57 × 1014 Hz.
A)3
B)1
C)4
D)6
E)7
A)3
B)1
C)4
D)6
E)7
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61
Determine the velocity of a medicine ball (m = 10.0 kg)with a wavelength of 1.33 × 10-35 m.
A)8.81 m s-1
B)12.3 m s-1
C)2.21 m s-1
D)4.98 m s-1
E)6.44 m s-1
A)8.81 m s-1
B)12.3 m s-1
C)2.21 m s-1
D)4.98 m s-1
E)6.44 m s-1
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62
Calculate the orbital for the hydrogen atom that contains an electron with an energy of -4.45 × 10-20 J.
A)n = 5
B)n = 4
C)n = 1
D)n = 3
E)n = 7
A)n = 5
B)n = 4
C)n = 1
D)n = 3
E)n = 7
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63
Each of the following sets of quantum numbers is supposed to specify an orbital.Which of the following sets of quantum numbers contains an error?
A)n = 2,l = 1 ,ml = -1
B)n = 4,l = 2,ml =0
C)n = 3,l = 3 ,ml = -2
D)n = 1,l = 0,ml =0
E)n = 3,l = 0,ml =0
A)n = 2,l = 1 ,ml = -1
B)n = 4,l = 2,ml =0
C)n = 3,l = 3 ,ml = -2
D)n = 1,l = 0,ml =0
E)n = 3,l = 0,ml =0
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64
Each of the following sets of quantum numbers is supposed to specify an orbital.Choose the one set of quantum numbers that does not contain an error.
A)n = 2,l = 2,ml = -1
B)n = 2,l = 2,ml = 0
C)n = 3,l = 2,ml = -3
D)n = 4,l = 3,ml = -2
E)n = 4,l = 2,ml = +4
A)n = 2,l = 2,ml = -1
B)n = 2,l = 2,ml = 0
C)n = 3,l = 2,ml = -3
D)n = 4,l = 3,ml = -2
E)n = 4,l = 2,ml = +4
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65
Calculate the de Broglie wavelength of an egg with a mass of 60 g travelling at 32.18 m s-1.
A)5.0 × 10-34 m
B)2.8 × 10-34 m
C)4.9 × 10-34 m
D)1.2 × 10-34 m
E)3.4 × 10-34 m
A)5.0 × 10-34 m
B)2.8 × 10-34 m
C)4.9 × 10-34 m
D)1.2 × 10-34 m
E)3.4 × 10-34 m
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66
Calculate the velocity of a pickup truck with a de Broglie wavelength of 1.27 × 10-38 m and a mass of 2347 kg.
A)88 km h-1
B)62.1 km h-1
C)94 km h-1
D)80.0 km h-1
E)106 km h-1
A)88 km h-1
B)62.1 km h-1
C)94 km h-1
D)80.0 km h-1
E)106 km h-1
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67
Determine the mass of a ball with a velocity of 35.1 m s-1 and a wavelength of 8.92 × 10-34 m.
A)26.0 g
B)594 g
C)2.08 g
D)47.3 g
E)21.2 g
A)26.0 g
B)594 g
C)2.08 g
D)47.3 g
E)21.2 g
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68
For n = 3,what are the possible sublevels?
A)0
B)0,1
C)0,1,2
D)0,1,2,3
A)0
B)0,1
C)0,1,2
D)0,1,2,3
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69
Calculate the energy of an electron in the orbital n = 5 of a hydrogen atom.
A)-1.08 × 10-19 J
B)8.72 × 10-20 J
C)1.08 × 10-19 J
D)-8.72 × 10-20 J
E)-7.21 × 10-20 J
A)-1.08 × 10-19 J
B)8.72 × 10-20 J
C)1.08 × 10-19 J
D)-8.72 × 10-20 J
E)-7.21 × 10-20 J
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70
Each of the following sets of quantum numbers is supposed to specify an orbital.Choose the one set of quantum numbers that does not contain an error.
A)n = 4,l = 4,ml = 0
B)n = 3,l = 2,ml = +3
C)n = 4,l = 0,ml = -1
D)n = 3,l = 1,ml = -2
E)n = 5,l = 3,ml = -3
A)n = 4,l = 4,ml = 0
B)n = 3,l = 2,ml = +3
C)n = 4,l = 0,ml = -1
D)n = 3,l = 1,ml = -2
E)n = 5,l = 3,ml = -3
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71
Calculate the mass of a pickup truck travelling at 100.0 km h-1 and a de Broglie wavelength of 1.24 × 10-38 m.
A)1924 kg
B)1134 kg
C)2347 kg
D)2841 kg
E)941.6 kg
A)1924 kg
B)1134 kg
C)2347 kg
D)2841 kg
E)941.6 kg
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72
Calculate the de Broglie wavelength of a pen with a mass of 14.28 g travelling at 16.3 m s-1.
A)1.76 × 10-31 m
B)6.43 × 10-37 m
C)2.85 × 10-33 m
D)8.19 × 10-32 m
E)5.30 × 10-34 m
A)1.76 × 10-31 m
B)6.43 × 10-37 m
C)2.85 × 10-33 m
D)8.19 × 10-32 m
E)5.30 × 10-34 m
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73
Calculate the orbital for the hydrogen atom that contains an electron with an energy of -2.42 × 10-19 J.
A)n = 6
B)n = 4
C)n = 5
D)n = 3
E)n = 2
A)n = 6
B)n = 4
C)n = 5
D)n = 3
E)n = 2
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74
Determine the mass of a ball with a wavelength of 3.45 × 10-34 m and a velocity of 6.55 m s-1.
A)0.293 g
B)12.6 g
C)293 g
D)346 g
E)3.41 g
A)0.293 g
B)12.6 g
C)293 g
D)346 g
E)3.41 g
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75
What value of l is represented by a d orbital?
A)1
B)2
C)0
D)3
A)1
B)2
C)0
D)3
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76
Which of the following statements is TRUE?
A)We can sometimes know the exact location and speed of an electron at the same time.
B)All orbitals in a given atom are roughly the same size.
C)Since electrons have mass,we must always consider them to have particle properties and never wavelike properties.
D)Atoms are roughly spherical because when all of the different shaped orbitals are overlapped,they take on a spherical shape.
A)We can sometimes know the exact location and speed of an electron at the same time.
B)All orbitals in a given atom are roughly the same size.
C)Since electrons have mass,we must always consider them to have particle properties and never wavelike properties.
D)Atoms are roughly spherical because when all of the different shaped orbitals are overlapped,they take on a spherical shape.
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77
How many sublevels are contained in the second shell (n = 2)of a given atom?
A)1
B)2
C)9
D)4
E)3
A)1
B)2
C)9
D)4
E)3
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78
Calculate the energy of an electron in the orbital n = 6 of a hydrogen atom.
A)3.19 × 10-20 J
B)4.18 × 10-20 J
C)-6.06 × 10-20 J
D)-7.80 × 10-20 J
E)-8.62 × 10-20 J
A)3.19 × 10-20 J
B)4.18 × 10-20 J
C)-6.06 × 10-20 J
D)-7.80 × 10-20 J
E)-8.62 × 10-20 J
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79
How many orbitals are contained in the third principal level (n = 3)of a given atom?
A)9
B)3
C)18
D)7
E)5
A)9
B)3
C)18
D)7
E)5
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80
What are the possible orbitals for n = 3?
A)s,p,d
B)s,p,d,f
C)s
D)s,p
A)s,p,d
B)s,p,d,f
C)s
D)s,p
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