Deck 9: The Atom

A)frequency of the light.
B)wavelength of the light.
C)intensity of the light.
D)speed of the light.

A)only the position of a particle.
B)only the momentum of a particle.
C)either the position or the momentum of a particle.
D)both the position and the momentum of a particle.

A)longer its wavelength.
B)more precisely its position can be established.
C)more precisely its momentum can be established.
D)more precisely its energy can be established.

A)The electron has the higher speed.
B)The proton has the higher speed.
C)They have the same speed.
D)Any of the choices is true, depending on the wavelength.

A)electric field.
B)speed.
C)energy.
D)probability of being found.

A)electromagnetic waves of very short wavelength.
B)electromagnetic waves of very long wavelength.
C)matter waves of very short wavelength.
D)matter waves of very long wavelength.

A)moving bodies would have longer wavelengths.
B)moving bodies would have smaller energies.
C)moving bodies would have higher speeds.
D)the uncertainty principle would be more significant.

A)theory and experiment agree.
B)it is in accord with common sense.
C)it was revealed to Einstein in a dream.
D)photons have actually been seen.

A)The electron has less energy than the photon energy of the gamma ray.
B)The electron has the same energy as the photon energy of the gamma ray.
C)The electron has more energy than the photon energy of the gamma ray.
D)Any of these choices could be correct, depending on the wavelength.

A)Newtonian mechanics.
B)quantum mechanics.
C)the quantum theory of light.
D)the Bohr theory of the hydrogen atom.

A)associated with all particles.
B)never associated with stationary particles.
C)never associated with charged particles.
D)never associated with uncharged particles.

A)are called photons.
B)have random energies.
C)have energies that depend upon the intensity of the light.
D)have energies that depend upon the frequency of the light.

A)interference
B)diffraction
C)the photoelectric effect
D)matter waves

A)the ball is uncharged.
B)the matter waves are moving too fast.
C)the frequency of the matter waves is too low.
D)the wavelength of the matter waves is too short.

A)wavelength.
B)speed.
C)energy.
D)number.

A)frequency.
B)wavelength.
C)speed.
D)charge.

A)less than the speed of light.
B)equal to the speed of light.
C)greater than the speed of light.
D)Any of these choices could be correct, depending on the frequency.

A)interference
B)diffraction
C)the photoelectric effect
D)matter waves
E)Both A and B

A)is less than the speed of light.
B)is equal to the speed of light.
C)is greater than the speed of light.
D)Any of these choices could be correct, depending on its frequency.

A)atoms can contain electrons.
B)atomic electrons are in motion.
C)atoms can emit electromagnetic waves.
D)atoms can be stable.

A)n = 1 to n = 2
B)n = 2 to n = 1
C)n = 2 to n = 3
D)n = 3 to n = 2

A)the same for all elements.
B)characteristic of the particular element.
C)evenly distributed throughout the entire visible spectrum.
D)different from the wavelengths in its dark-line spectrum.

A)Bohr principle.
B)de Broglie principle.
C)exclusion principle.
D)uncertainty principle.

A)10^-8 s.
B)1 s.
C)10 s.
D)1 min.

A)is 0.
B)is 1.
C)depends on the orbit size.
D)depends on the electron speed.

A)the de Broglie wavelength of its electron equals its orbit diameter.
B)the de Broglie wavelength of its electron equals its orbit circumference.
C)its electron has left the atom.
D)its electron is at rest.

A)spontaneous emission of a photon
B)induced emission of a photon
C)absorption of a photon
D)a collision with another atom
E)Both C and D

A)coherent.
B)incoherent.
C)quantized.
D)diffracted.

A)n = 1 to n = 2
B)n = 2 to n = 1
C)n = 2 to n = 3
D)n = 3 to n = 2

A)leaves the atom.
B)collides with another of its electrons.
C)shifts to a lower energy level.
D)shifts to a higher energy level.

A)lines are evenly spaced.
B)excited electrons all started from the same energy level.
C)excited electrons all return to the same energy level.
D)excited electrons leave the atoms.

A)is the same for all quantum numbers.
B)is smaller for small quantum numbers.
C)is larger for large quantum numbers.
D)shows no regularity.

A)a line spectrum.
B)an emission spectrum.
C)an absorption spectrum.
D)photons.

A)continuous band of light.
B)band of light crossed by brighter lines.
C)band of light crossed by dark lines.
D)series of bright lines.

A)have different wavelengths.
B)have different speeds.
C)are in step with one another.
D)spread out to form a wide beam.

A)have no magnetic properties.
B)have the same magnetic behavior as particles of iron.
C)behave like tiny bar magnets of different strengths.
D)behave like tiny bar magnets of the same strength.

A)1.
B)2.
C)3.
D)4.

A)1.
B)2.
C)always equal to n, the principal quantum number.
D)always equal to 2n.

A)n = 1 to n = 2
B)n = 2 to n = 1
C)n = 2 to n = 3
D)n = 3 to n = 2

A)7.8 * 10^-20 m/s.
B)9.9 * 10² m/s.
C)1.9 * 10⁶ m/s.
D)3.9 * 10⁶ m/s.

A)2.2 * 10^-48 J.
B)1.98 * 10^-47 J.
C)1.98 * 10^-19 J.
D)4.5 * 10¹⁹ J.

A)only one electron.
B)two electrons with spins in the same direction.
C)two electrons with spins in opposite directions.
D)any number of electrons.

A)1.3 * 10^-19.
B)8.3 * 10^-17.
C)7.6 * 10¹⁸.
D)1.9 * 10⁵⁰.

A)2.8 * 10^-10 m.
B)3.6 * 10^-10 m.
C)3.6 * 10^-11 m.
D)2.8 * 10¹⁰ m.

A)3.3 * 10^-50 Hz.
B)3 * 10^-19 Hz.
C)3.3 * 10¹⁸ Hz.
D)3.3 * 10²⁰ Hz.