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Author Question: The terrestrial planets and the Jovian planets are distinguished from each other in terms of a. ... (Read 236 times)

kfurse

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The terrestrial planets and the Jovian planets are distinguished from each other in terms of
 a. density only.
  b. size only.
  c. temperature only.
  d. all of these.

Question 2

A wave in which the particle displacement is perpendicular to the wave motion is called a(n) ______________ wave.
 Fill in the blank(s) with correct word

Question 3

In the operation of a laser
 a. stimulated emission occurs.
  b. there is a population inversion.
  c. the excited state will tend to be metastable.
  d. the photons emitted will have transitioned to the ground state.
  e. For the answers (a), (b), (c), and (d), three are correct and one is incorrect.

Question 4

The Jovian planets
 a. are composed mainly of hydrogen and helium.
  b. have no solid surface.
  c. have rings.
  d. all of these.

Question 5

The frequency and the wavelength of a wave are ______________ proportional.
 Fill in the blank(s) with correct word

Question 6

A headwaiter at a restaurant decides to apply the exclusion principle to the seating of patrons. He will treat tables as sub-shells, and will only seat patrons if the number of the people to be seated adds up to a complete sub-shell. Of the numbers below, the number he would not be willing to seat at one table is
 a. 2.
  b. 4.
  c. 6.
  d. 10.
  e. 14.

Question 7

A terrestrial planet that has seasonal changes is
 a. Venus.
  b. Mars.
  c. Mercury.
  d. Saturn.

Question 8

If the wave frequency is doubled, the period of the wave is ______________.
 Fill in the blank(s) with correct word

Question 9

Aline says that the magnetic moment of an atom originates in the orbital angular momentum of the electron. Bevis says that it comes from the electron spin. Which one, if either, is correct, and why?
 a. Aline, because only atoms, not electrons, can have angular momentum.
  b. Bevis, because only atoms, not electrons, can have angular momentum.
  c. Neither, because electron spin and orbital angular momentum always cancel exactly.
  d. Neither, because the magnetic moment of an atom comes only from the spin of the nucleus.
  e. Both, because both the orbital angular momentum and the spins of the electrons contribute to the magnetic moment of an atom.

Question 10

The brightest object in the sky is
 a. the Sun.
  b. the Moon.
  c. Venus.
  d. Mars.

Question 11

The relationship of wave speed, wavelength, and frequency is given by ______________.
 Fill in the blank(s) with correct word

Question 12

What is the difference in wavelength for spectral lines emitted by hydrogen for transitions from the n = 16 level to the n = 2 level and transitions from the n = 15 level to the n = 2 level? (RH = 1.097  107 m1.)
 a. 1.0  1010 m
  b. 2.0  1010 m
  c. 4.1  1010 m
  d. 8.1  1010 m
  e. 1.6  109 m

Question 13

The second brightest object in the sky is
 a. the Sun.
  b. the Moon.
  c. Venus.
  d. Mars.

Question 14

The SI unit of frequency is ______________.
 Fill in the blank(s) with correct word

Question 15

What is the difference in frequency for spectral lines emitted by hydrogen for transitions from the n = 16 level to the n = 2 level and transitions from the n = 15 level to the n = 2 level? (RH = 1.097  107 m1.)
 a. 5.65  1013 Hz
  b. 31 Hz
  c. 1.77  1012 Hz
  d. 2.55  1016 Hz
  e. 1.02  1017 Hz

Question 16

The third brightest object in the sky is
 a. the Sun.
  b. the Moon.
  c. Venus.
  d. Mars.

Question 17

A wave with a frequency of 5 Hz will have a period of ______________ s.
 Fill in the blank(s) with correct word

Question 18

In a completely filled atomic shell,
 a. the intrinsic spin of the electrons does not produce a resultant magnetic moment.
  b. the orbital motion of the electrons does not produce a resultant magnetic moment.
  c. the atom will be an alkali metal.
  d. only (a) and (b) are correct.
  e. none of the above are correct.

Question 19

Which of the terrestrial planets has rings?
 a. Mercury
  b. Venus
  c. Mars
  d. None of the terrestrial planets has rings.

Question 20

All waves transfer ______________.
 Fill in the blank(s) with correct word

Question 21

When electrons fill a subshell in which the orbitals have equal energy, the order in which the orbitals are filled is such that
 a. a minimum number of electrons has unpaired spins.
  b. a minimum number of electrons has intrinsic angular momentum.
  c. a maximum number of electrons has unpaired spins.
  d. a maximum number of electrons first fills the next energy level.
  e. the maximum number of electrons has the same set of quantum numbers.

Question 22

Which of the following is not a terrestrial planet?
 a. Earth
  b. Mars
  c. Jupiter
  d. Venus

Question 23

A wave is a propagation of ______________.
 Fill in the blank(s) with correct word

Question 24

Rubidium (Z = 37) and potassium (Z = 19) are similar to sodium in that they have ____ electron(s) in the outermost shell.
 a. five p
  b. three p
  c. two s
  d. one d
  e. one s

Question 25

Which of the following is not a terrestrial planet?
 a. Earth
  b. Mars
  c. Saturn
  d. Venus

Question 26

What is the wavelength in meters, of a sound wave (v = 340 m/s) with a frequency of 4 Hz?
 a. 85 Hz
  b. 1360 Hz
  c. 340 Hz
  d. 0.012 Hz

Question 27

The ground state configuration of chlorine (Z = 17) is
 a. 1s2 2s2 2p5 3s2 3p6
  b. 1s2 2s2 2p6 3s2 3p5
  c. 1s2 2s2 2p6 3s2 3p4 3d1
  d. 1s2 2s2 2p6 3s2 3p5 4s1
  e. 1s2 2s2 2p6 3s1 3p7

Question 28

How many minor planets are known to exist in the solar system, using today's classification system?
 a. 1
  b. 3
  c. 2
  d. 4

Question 29

What is the frequency, in hertz, of a sound wave (v = 340 m/s) with a wavelength of 68 m?
 a. 5 Hz
  b. 23120 Hz
  c. 340 Hz
  d. 0.2 Hz

Question 30

Characteristic x-rays can be produced by bombarding targets with electrons. These x-rays occur when
 a. electrons from higher shells fill the vacant lower shell
  b. electrons fill the vacant valence shell
  c. photons are emitted with energies on the order of 103 eV
  d. photons are emitted with wavelengths on the order of 103 nm

Question 31

According to today's classification system, how many major planets are there in the solar system?
 a. 10
  b. 9
  c. 8
  d. 11

Question 32

A stretched string can have ______________ natural frequency(ies).
 a. one
  b. 10 times its length in
  c. 5 times its length in
  d. many

Question 33

Forbidden transitions and selection rules suggest that
 a. a photon has linear momentum.
  b. a photon has energy.
  c. a photon has angular momentum.
  d. a photon has parity.
  e. a photon has mass.

Question 34

Which of the following planets cannot be in opposition?
 a. Mercury
  b. Jupiter
  c. Saturn
  d. Mars

Question 35

When an oscillator is driven in resonance,
 a. there are no standing waves.
  b. any driving frequency may be used.
  c. all natural frequencies are present.
  d. there is maximum energy transfer.

Question 36

The Pauli Exclusion Principle states
 a. no two electrons in the same atom can have the same set of quantum numbers.
  b. there is an inherent uncertainty in the position and momentum of a particle.
  c. when an atom has orbitals of equal energy, the maximum number of electrons will have unpaired spins.
  d. when an atom has orbitals of equal energy, the maximum number of electrons will be paired spins.
  e. no two atoms can have the same set of quantum numbers.

Question 37

Which of the following planets cannot be in opposition?
 a. Venus
  b. Jupiter
  c. Saturn
  d. Mars

Question 38

Resonance occurs when
 a. two different objects vibrate with different frequencies.
  b. two different objects produce beats.
  c. an object having a certain natural frequency is set in vibration by a second object vibrating at that frequency.
  d. an object produces a sound.

Question 39

In 1921, Stern and Gerlach performed an experiment that first demonstrated
 a. orbital angular momentum quantization
  b. energy quantization
  c. space quantization
  d. magnetic orbital quantization
  e. that particles behave like waves

Question 40

Which of the following planets can be in opposition?
 a. Mercury
  b. Venus
  c. Earth
  d. Saturn

Question 41

Standing waves can be set up in a string when two waves that are
 a. of the same frequency and amplitude, but are opposite in direction of travel, meet each other.
  b. of the same frequency, amplitude, and direction of travel are also 180 out of phase.
  c. of the same frequency, amplitude, and direction of travel meet each other.
  d. of the same frequency, amplitude, and velocity meet each other.

Question 42

A Li2+ ion undergoes a transition from the n = 4 to the n = 3 state. The energy of the emitted photon is
 a. 4.5 eV
  b. 10.2 eV
  c. 5.95 eV
  d. 2.6 eV
  e. 0.66 eV

Question 43

Which of the following planets can be in opposition?
 a. Mercury
  b. Venus
  c. Earth
  d. Neptune

Question 44

For the Doppler effect to occur, there must be
 a. a moving source.
  b. a moving observer.
  c. relative motion between a source and an observer.
  d. no motion.

Question 45

The energy needed to change a He+ ion in the ground state into a He2+ ion is
 a. 13.6 eV
  b. 54.4 eV
  c. 112.4 eV
  d. 92.9 eV
  e. 27.2 eV

Question 46

Which of the following planets can be in opposition?
 a. Mercury
  b. Venus
  c. Earth
  d. Uranus

Question 47

A train sounding its horn is moving toward an observer. The pitch of the horn's sound relative to its normal pitch is
 a. lower.
  b. sometimes higher and sometimes lower.
  c. higher.
  d. the same.

Question 48

For the following allowed transitions, which photon would have the largest wavelength when an electron jumps from one energy level, characterized by the quantum number n, to another?
 a. n = 2 to n = 1
  b. n = 3 to n = 2
  c. n = 3 to n = 1
  d. n = 1 to n = 3
  e. n = 4 to n = 1

Question 49

Which of the following planets can be in opposition?
 a. Mercury
  b. Venus
  c. Earth
  d. Mars

Question 50

During a thunderstorm, an observer notes that 10 s elapsed between the lightning flash and the sound of the thunder. What is the approximate distance, in miles, from the observer to the lightning?
 a. 10 mi
  b. 50 mi
  c. 2 mi
  d. 100 mi

Question 51

Of the following states, 5s, 3p, 4f, 5p, 4g, 3d, and 2p, the one which is NOT allowed is
 a. 3p
  b. 4f
  c. 3d
  d. 4g
  e. 2p

Question 52

The terrestrial planets have
 a. relatively high densities.
  b. solid surfaces.
  c. weak magnetic fields.
  d. all of these.

Question 53

The Doppler effect is observed only when
 a. the source of a wave moves toward a stationary observer.
  b. there is relative motion between the source of a wave and an observer.
  c. an observer moves toward the stationary source of a wave.
  d. both the source of a wave and an observer are moving toward each other.

Question 54

The energy needed to remove an electron from the first excited state of a Li2+ ion is
 a. 53 eV
  b. 31 eV
  c. 92 eV
  d. 122 eV
  e. 61 eV

Question 55

Which of the following planets moves the slowest in its orbit around the Sun?
 a. Earth
  b. Mars
  c. Venus
  d. Mercury

Question 56

Light can travel to Earth from a distant star, but sound cannot. Why is this?
 a. Light is an electromagnetic wave, and sound requires a medium.
  b. The Sun does not make sound.
  c. Light is a longitudinal wave, and sound is a transverse wave.
  d. The statement is false; both light and sound can travel in empty space.

Question 57

The number of states in the He+ ion corresponding to the principle quantum number n = 5 are
 a. 18
  b. 25
  c. 50
  d. 9
  e. 11

Question 58

Which planet moves the fastest?
 a. Earth
  b. Mars
  c. Venus
  d. Mercury

Question 59

How many times greater is the speed of red light ( = 700 nm) than the speed of violet light ( = 400 nm) in a vacuum?
 a. 1.75 , the first color of light is faster
  b. 0.57 , the second color of light is faster
  c. 3.00  108 , the first color of light is faster
  d. 1.00 , both colors of light have the same speed
  e. 3.00  108 , the second color of light is faster

Question 60

The allowed values of n for the Li2+ ion are
 a. 1 to
  b. 2 to
  c. 3 to
  d. any real number
  e. 1 to 10

Question 61

The aberration of starlight gives proof that Earth is
 a. rotating.
  b. revolving.
  c. precessing.
  d. none of these.

Question 62

How many times greater is the speed of infrared light ( = 800 nm) than the speed of violet light ( = 400 nm) in a vacuum?
 a. 2
  b. 1/2
  c. 400
  d. 1; that is, both have the same speed.

Question 63

One of the main problems with the Bohr model of the hydrogen atom when compared with the results of the methods of quantum mechanics used to describe atoms, was that the Bohr model predicted
 a. the ground state angular momentum was L = 1 .
  b. the frequency of the radiation emitted when an electron jumps from one allowed orbit to another was hf = Ei  Ef.
  c. the potential energy function for the hydrogen atom was given by V(r) = ke2/r.
  d. the energy of the ground state of the hydrogen atom was En = 13.6 eV.

Question 64

The planet Mercury
 a. has retrograde motion.
  b. is the closest planet to Venus.
  c. is the smallest of the terrestrial planets.
  d. has a uniquely circular orbit.

Question 65

A Doppler red shift indicates
 a. a shift toward lower frequencies.
  b. a shift toward shorter wavelengths.
  c. that a light source is approaching relative to the observer.
  d. none of these.

Question 66

Suppose Bohr had chosen the potential energy of the electron in the hydrogen atom to be V = 0 when the electron is in the orbit with n = 1 . He could do this by
 a. choosing n = 1 for the orbit where the kinetic energy of the electron is zero.
  b. adding a constant 13.6 eV to the potential energy for all values of n.
  c. adding a constant 27.2 eV to the potential energy for all values of n.
  d. subtracting a constant 13.6 eV from the potential energy for all values of n.
  e. subtracting a constant 27.2 eV from the potential energy for all values of n.

Question 67

The planet Earth
 a. has retrograde motion.
  b. is the closest planet to Venus.
  c. is the smallest of the terrestrial planets.
  d. has a unique circular orbit.

Question 68

A Doppler red shift indicates
 a. a shift toward higher frequencies.
  b. a shift toward longer wavelengths.
  c. that a light source is approaching relative to the observer.
  d. none of these.

Question 69

An electron is moving at a speed of 2.1  106 m/s in the first Bohr orbit. Determine its de Broglie wavelength.
 a. 0.30  1010 m
  b. 1.7  1010 m
  c. 0.50  1010 m
  d. 3.5  1010 m
  e. 1.5  1010 m

Question 70

The closest planet to Earth is
 a. Mars.
  b. Venus.
  c. Mercury.
  d. Saturn.

Question 71

A Doppler red shift indicates
 a. a shift toward higher frequencies.
  b. a shift toward shorter wavelengths.
  c. that a light source is receding relative to the observer.
  d. none of these.

Question 72

How fast is the electron moving in the first Bohr orbit?
 a. 3.3  106 m/s
  b. 2.2  106 m/s
  c. 4.4  106 m/s
  d. 5.5  106 m/s
  e. 5.5  1015 m/s

Question 73

Stellar paralax proves that Earth is
 a. rotating.
  b. revolving.
  c. precessing.
  d. an oblate spheroid.

Question 74

A Doppler red shift indicates
 a. a shift toward lower frequencies.
  b. a shift toward longer wavelengths.
  c. that a light source is receding relative to the observer.
  d. all of these.

Question 75

A hydrogen atom is in its first excited state (n = 2). The linear momentum of the electron is (in kg  m/s)
 a. 3  1024
  b. 2  1024
  c. 1  1024
  d. 4  1024
  e. 3  1015

Question 76

The motion of a Foucault pendulum proves that Earth is
 a. rotating.
  b. revolving.
  c. precessing.
  d. an oblate spheroid.

Question 77

A Doppler red shift indicates
 a. a shift toward higher frequencies.
  b. a shift toward shorter wavelengths.
  c. that a light source is approaching relative to the observer.
  d. none of these.

Question 78

An electron in a hydrogen atom makes a transition from the n = 3 to the n = 1 energy state. Determine the wavelength of the emitted photon (in nm).
 a. 1006
  b. 209
  c. 306
  d. 103
  e. 821

Question 79

Earth's axis is tilted ______________ degrees from the normal to the ecliptic plane.
 a. zero
  b. 90
  c. 45
  d. 23.5

Question 80

The threshold of hearing is
 a. 0 dB.
  b. 140 dB.
  c. 40 dB.
  d. 110 dB.
  e. 1 dB.

Question 81

An electron in a hydrogen atom makes a transition from the n = 4 to the n = 3 energy state. Determine the energy (in eV) of the emitted photon.
 a. 0.54
  b. 0.66
  c. 0.85
  d. 1.51
  e. 10.2

Question 82

Retrograde motion of a planet refers to ______________ motion.
 a. west-to-east
  b. east-to-west
  c. circular
  d. elliptical

Question 83

If a sound level increases by 40 dB, the intensity increases by a factor of ______________.
 a. one hundred thousand
  b. ten thousand
  c. one thousand
  d. one million

Question 84

Light is emitted by hydrogen atoms in the visible range for a hydrogen atom. Its wavelength is 656 nm. What value of n is associated with the light? (RH = 1.097  107 m1)
 a. 5
  b. 2
  c. 4
  d. 3
  e. 6

Question 85

Kepler's third law of planetary motion is also known as the ______________ law.
 a. periodic
  b. elliptical path
  c. harmonic
  d. heliocentric

Question 86

The intensity of a 80-dB whistle is quadrupled. What is the new decibel level?
 a. 80 dB
  b. 68 dB
  c. 89 dB
  d. 320 dB

Question 87

What wavelength (in m) is associated with the Paschen series for n = 4? (RH = 1.097  107 m1)
 a. 320
  b. 530
  c. 2.7
  d. 1.9
  e. 0.5

Question 88

The name given to the point of a planet's orbit that is farthest from the Sun is
 a. aphelion.
  b. focus.
  c. perihelion.
  d. solstice.

Question 89

The intensity of a 50-dB whistle is doubled. What is the new decibel level?
 a. 50 dB
  b. 47 dB
  c. 53 dB
  d. 100 dB

Question 90

What value of wavelength is associated with the Lyman series for n = 2? (RH = 1.097  107 m1)
 a. 8.2  106 m
  b. 1.2  107 m
  c. 2.7  106 m
  d. 3.6  107 m
  e. 8.8  107 m

Question 91

The name given to the point of a planet's orbit that is closest to the Sun is
 a. aphelion.
  b. focus.
  c. perihelion.
  d. solstice.

Question 92

A sound level of 19 dB is how many times as intense as one of 10 dB?
 a. 8
  b. 9
  c. 3
  d. 18

Question 93

An energy of 13.6 eV is needed to ionize an electron from the ground state of a hydrogen atom. Selecting the longest wavelength that will work from the those given below, what wavelength is needed if a photon accomplishes this task?
 a. 60 nm
  b. 80 nm
  c. 70 nm
  d. 90 nm
  e. 40 nm

Question 94

Kepler's first law states that the orbits of the planets around the Sun are
 a. circles.
  b. ellipses.
  c. all lying in the same plane.
  d. none of these.

Question 95

An increase of 40 dB increases the sound intensity by a factor of
 a. 1000.
  b. 40000.
  c. 10000.
  d. 4000.

Question 96

In the hydrogen molecule, H2, the separation between the protons is 1010 m. If the molecule is in its first rotational energy state, what is the angular velocity of the molecule about its center of mass?



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shoemake

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Answer to Question 1

d

Answer to Question 2

transverse

Answer to Question 3

e

Answer to Question 4

d

Answer to Question 5

inversely

Answer to Question 6

b

Answer to Question 7

b

Answer to Question 8

reduced by one-half

Answer to Question 9

e

Answer to Question 10

a

Answer to Question 11

v = f

Answer to Question 12

d

Answer to Question 13

b

Answer to Question 14

1/s, or s-1, or Hz

Answer to Question 15

c

Answer to Question 16

c

Answer to Question 17

1/5, or 0.2

Answer to Question 18

d

Answer to Question 19

d

Answer to Question 20

energy

Answer to Question 21

c

Answer to Question 22

c

Answer to Question 23

energy, or disturbance

Answer to Question 24

e

Answer to Question 25

c

Answer to Question 26

a

Answer to Question 27

b

Answer to Question 28

b

Answer to Question 29

a

Answer to Question 30

a

Answer to Question 31

c

Answer to Question 32

d

Answer to Question 33

c

Answer to Question 34

a

Answer to Question 35

d

Answer to Question 36

a

Answer to Question 37

a

Answer to Question 38

c

Answer to Question 39

c

Answer to Question 40

d

Answer to Question 41

a

Answer to Question 42

c

Answer to Question 43

d

Answer to Question 44

c

Answer to Question 45

b

Answer to Question 46

d

Answer to Question 47

c

Answer to Question 48

b

Answer to Question 49

d

Answer to Question 50

c

Answer to Question 51

d

Answer to Question 52

d

Answer to Question 53

b

Answer to Question 54

b

Answer to Question 55

b

Answer to Question 56

a

Answer to Question 57

c

Answer to Question 58

d

Answer to Question 59

d

Answer to Question 60

a

Answer to Question 61

b

Answer to Question 62

d

Answer to Question 63

a

Answer to Question 64

c

Answer to Question 65

a

Answer to Question 66

c

Answer to Question 67

b

Answer to Question 68

b

Answer to Question 69

d

Answer to Question 70

b

Answer to Question 71

c

Answer to Question 72

b

Answer to Question 73

b

Answer to Question 74

d

Answer to Question 75

c

Answer to Question 76

a

Answer to Question 77

d

Answer to Question 78

d

Answer to Question 79

d

Answer to Question 80

a

Answer to Question 81

b

Answer to Question 82

b

Answer to Question 83

b

Answer to Question 84

d

Answer to Question 85

c

Answer to Question 86

c

Answer to Question 87

d

Answer to Question 88

a

Answer to Question 89

c

Answer to Question 90

b

Answer to Question 91

c

Answer to Question 92

a

Answer to Question 93

d

Answer to Question 94

b

Answer to Question 95

c

Answer to Question 96

1.8  1013 rad/s




kfurse

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Reply 2 on: Jul 29, 2018
Gracias!


blakcmamba

  • Member
  • Posts: 335
Reply 3 on: Yesterday
Excellent

 

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