Deck 8: Light and Electromagnetism

A) the force between magnets is far too large to be caused by gravity.
B) the force between magnets can be repulsive, while gravity must be attractive.
C) Both of the above.
D) the force of gravity is always downward, unlike the magnetic force.
E) All of the above.

A) There is both an electric field and a magnetic field at X.
B) There is no electric field at X but there is a magnetic field at X.
C) There is an electric field at X, but no magnetic field.
D) There is neither an electric field nor a magnetic field at X.
E) It is impossible to answer this question without knowing what kind of charge the particle has.

A) the magnetic force law.
B) the principle of conservation of electromagnetic fields.
C) the law of force pairs.
D) Faraday's law.
E) the electric force law.

A) radiant
B) electrical
C) thermal
D) chemical
E) Actually, they don't have any energy.

A) they will exert both and electric and magnetic forces.
B) they will exert electric forces but not magnetic forces.
C) they will exert electromagnetic forces only after five o'clock on Friday afternoons.
D) they will exert magnetic forces but not electric forces.
E) they will exert neither electric nor magnetic forces because they are not in contact with each other.

A) gas pressure, including air pressure.
B) electrical phenomena such as electric current.
C) the differences between the three states of matter.
D) certain subtle "quantum" effects.
E) the microscopic meaning of thermal energy.

A) The force by A on B is 100 times smaller.
B) The force by A on B is 100 times larger.
C) They are equal.
D) The force by A on B is 10 times smaller.
E) The force by A on B is 10 times larger.

A) there are two wires, both carrying giant pumpkins into the light bulb.
B) there is just one wire, carrying electrons into the light bulb.
C) there are two wires, one carrying electrons into the light bulb and the other carrying electrons out.
D) there are two wires, one carrying protons into the light bulb and the other carrying protons out of the light bulb.
E) there is just one wire, carrying protons into the light bulb.

A) a magnetic field only
B) an electric field only
C) Both an electric and magnetic field
D) No fields at all, because the transparency would create electromagnetic fields only within the transparency itself
E) No fields at all, because there is nothing [no material object] at such a point

A) yogurt.
B) neutrons and electrons.
C) protons only.
D) protons and neutrons.
E) protons and electrons.

A) They would move in opposite directions, and the electron would move fastest.
B) They would move in opposite directions, and the proton would move fastest.
C) They would move in the same directions, and the electron would move fastest.
D) They would move in opposite directions, and at the same speeds.
E) They would move in the same directions, and the proton would move fastest.

A) Earth's magnetism a consequence of the world's physics professors all spinning in the same direction.
B) It is caused by a separation of charge within the Earth, with positive static charge residing at one of Earth's poles and negative static charge residing at the other pole.
C) Subatomic particles known as "magnetic poles" reside in the Earth, with one type of magnetic pole residing at Earth's north pole and the other type of magnetic pole residing at Earth's south pole.
D) It is caused by electrically charged material circulating within Earth's hot liquid core.
E) It is caused by charged, or ionized, particles circulating in the air above the solid Earth.

A) an atom having a particular number of protons in the nucleus.
B) two or more atoms stuck together.
C) an atom with an excess or deficiency of electrons.
D) a device used to press clothes.
E) an atom in an excited state.

A) no electric or magnetic forces on each other.
B) a repulsive magnetic force on each other, but no electric force.
C) an attractive electric force on each other, but no magnetic force.
D) an attractive magnetic force on each other, but no electric force.
E) a repulsive electric force on each other, but no magnetic force.

A) 1/60 ohm
B) 1/30 ohm
C) 30 ohms
D) 60 ohms
E) 480 ohms

A) either a negative or positive ion, depending on which electron was lost.
B) ashamed of itself.
C) a neutral ion.
D) a positive ion.
E) a negative ion.

A) the electric motor
B) certain features of the frictional force
C) the electric force
D) a new feature about the gravitational force
E) the magnetic force

A) is a region of space where a charge would feel a force.
B) can exist in vacuum.
C) Both of the above.
D) None of the above.

A) 0.1 amp
B) 360 amps
C) 10 amps
D) 30 amps
E) 6 amps

A) electric charge builds up within the bulb, causing the bulb to light up.
B) electric charge builds up on the battery terminals but none of it actually flows through the bulb.
C) all the electrical current produced by the battery is consumed by the bulb.
D) the amount of electrical current flowing into one side of the battery is equal to the amount flowing out of the other side.
E) some of the electrical current produced by the battery is consumed by the bulb, and the rest flows back into the battery.

A) a low resistance placed across a high voltage.
B) an electrical circuit with a very high resistance.
C) a high voltage that is not connected to an electrical circuit.
D) a high resistance placed across a low voltage.
E) an electrical circuit with a very high voltage.

A) magnetic but not electric.
B) electric but not magnetic.
C) zero.
D) both electric and magnetic.

A) the current is smaller in the lightbulb than in the wires.
B) the resistance is smaller in the lightbulb than in the wires.
C) the resistance is larger in the lightbulb than in the wires.
D) the current is larger in the lightbulb than in the wires.
E) the wires are made of a type of material that cannot heat up.

A) Yes, both are electromagnetic forces.
B) Yes, both are gravitational forces.
C) No, nuclear forces hold an atom together while electromagnetic forces hold the solar system together.
D) No, electromagnetic forces hold atoms together while gravitational forces hold the solar system together.
E) No, nuclear forces hold an atom together while gravitational forces hold the solar system together.

A) a repulsive magnetic force.
B) zero.
C) an attractive magnetic force.
D) an attractive electric force.
E) a repulsive electric force.

A) the number of protons in its nucleus.
B) the number of electrons orbiting the nucleus of the neutral atom.
C) Both of the above.
D) the number of electrons orbiting the nucleus of the ionized atom.
E) All of the above.

A) the proton has a positive charge, the electron has a negative charge whose strength is equal to the strength of the proton's charge, and the neutron has no charge.
B) the electron has a negative charge, the proton has a positive charge, and the neutron has a charge that can be positive or negative or zero depending on the ionization of the atom in which it resides.
C) the proton has a positive charge, the electron has a much smaller negative charge, and the neutron has no charge.
D) the proton has a positive charge, the neutron has a negative charge whose strength is equal to that of the proton's charge, and the electron has no charge.
E) these objects are charged only when they reside in an ionized atom; otherwise, all three are uncharged.

A) the amount of energy it gives to each coulomb of electrical charge.
B) the amount of kinetic energy it gives to each electron.
C) the amount of electrical resistance it can overcome.
D) the amount of electrical charge it can send around an electrical circuit in every second.
E) the amount of electrical current it produces.

A) magnetic but not electric.
B) electric but not magnetic.
C) zero.
D) both electric and magnetic.

A) the number of protons in its nucleus.
B) the number of electrons orbiting the nucleus of the neutral atom.
C) Both of the above.
D) the number of electrons orbiting the nucleus of the ionized atom.
E) All of the above.

A) they will feel no force.
B) the electron will be repelled while the proton will be attracted.
C) they will be attracted to each other.
D) they will be repelled from each other.
E) None of the above.

A) similarly- charged objects repel each other.
B) similarly- charged objects attract each other.
C) similarly- charged objects exert magnetic forces on each other.
D) differently- charged objects repel each other.
E) differently- charged objects attract each other.

A) a magnetic field
B) an electric field
C) Both of the above.
D) an electric force
E) All of the above.

A) 0.5 N.
B) 8 N.
C) 0.25 N.
D) 1 N.
E) 4 N.

A) atoms jiggling back and forth within the wire.
B) protons [and possibly other ions] traveling along the wire.
C) the great pumpkin.
D) electromagnetic radiation.
E) electrons traveling along the wire.

A) the proton and neutron have roughly the same mass, and both are far more massive than the electron.
B) the proton and electron have roughly the same mass, and both are far more massive than the neutron.
C) the proton and neutron have roughly the same mass, and both are about twice as massive as the electron.
D) the proton is much more massive, while the electron and neutron have roughly the same mass.
E) the proton is the most massive, the electron is far less massive, and the neutron has a mass about midway between the proton and electron mass.

A) The ion is repelled from both the transparency and from the tissue.
B) The ion is attracted to the positively charged transparency, but repelled from the negatively charged tissue.
C) The ion is repelled from the positively charged transparency, but attracted to the negatively charged tissue.
D) The ion is attracted to both the transparency and to the tissue.

A) electrons moving in atoms.
B) a miracle.
C) equal and opposite charges placed on each of the two "poles."
D) large- scale [macroscopic] electric currents on the surface of the magnet.
E) equal and opposite magnets placed on each of the two poles.

A) 9 N
B) zero
C) 1 N
D) 9 x 10⁹ N
E) 10⁶ N

A) both DC.
B) both AC.
C) AC and DC, respectively.
D) DC and AC, respectively.
E) None of the above.

A) 24 cm
B) 48 cm
C) 9 cm
D) 6 cm
E) 3 cm

A) neutrons exist.
B) light is a wave.
C) electrons exist.
D) light is made of particles.
E) the atom contains a tiny nucleus containing most of the atom's mass.

A) electromagnetic generators.
B) protons.
C) charges in motion.
D) permanent magnets.
E) stationary charges.

A) Excess electrons flow onto both the brush and the hair, causing the hairs to repel each other and causing the brush to repel the hairs.
B) Electrons are brushed either from the hair onto the brush, or vice- versa, causing the brush and hair to be charged, so that the hairs then attract each other while the brush repels the hairs.
C) The atoms of the brush and hair are heated, causing their electrons to move faster, which spreads out the atoms and thus causes the hairs to stand up.
D) Electrons are brushed either from the hair onto the brush, or vice- versa, causing the brush and hair to be charged, so that the hairs then repel each other while the brush attracts the hairs.
E) The atoms of the brush and hair are set into rapid vibration, causing them to emit electromagnetic waves, which causes the hairs to stand up.

A) they will exert magnetic forces but not electric forces.
B) they will exert electric forces but not magnetic forces.
C) they will exert both electric and magnetic forces.
D) they will exert neither electric nor magnetic forces because neither object is moving.
E) they will exert neither electric nor magnetic forces because they are not in contact with each other.

A) the force of attraction between the nuclei of atoms in the magnet and the nuclei of atoms in the nails.
B) the electric force exerted by electrons in the magnet, on electrons in the nails.
C) the magnetic force exerted by ions moving within the magnet on electrons moving within the nails.
D) the magnetic force exerted by electrons moving within the magnet, on electrons moving within the nails.
E) the electric force exerted by ions in the magnet on electrons in the nails.

A) zero.
B) an attractive magnetic force.
C) a repulsive electric force.
D) an attractive electric force.
E) a repulsive magnetic force.

A) There is no electric field at X but there is an electric force at X.
B) There is both an electric field and an electric force at X.
C) The is an electric field at X, but no electric force.
D) There is neither an electric field nor an electric force at X.
E) It is impossible to answer this question without knowing what kind of charge the particle has.

A) the number of protons in the nucleus of an atom of that element.
B) the number of electrons in the nucleus of an atom of that element.
C) the number of atoms in a molecule of the element.
D) the number of neutrons in the nucleus of an atom of that element.
E) the number of nuclei in an atom of the element.

A) zero.
B) magnetic but not electric.
C) both electric and magnetic.
D) electric but not magnetic.

A) moving charges exert only magnetic forces, while stationary charges exert both electric and magnetic forces.
B) moving charges exert both electric and magnetic forces, while stationary charges exert only electric forces.
C) moving charges exert only magnetic forces, while stationary charges exert only electric forces.
D) moving charges stay slender, while stationary charges are couch potatoes.
E) moving charges exert both electric and magnetic forces, while stationary charges exert neither electric nor magnetic forces.

A) voltage around the circuit.
B) amount of energy given to each coulomb of electrical charge.
C) amount of electric current flowing around the circuit.
D) amount of electric current consumed by the circuit elements.
E) amount of thermal energy produced in the circuit.

A) 18 cm
B) 9 cm
C) 24 cm
D) 12 cm
E) 3 cm

A) an electric force only
B) a magnetic force only
C) Both an electric and magnetic force
D) No forces at all, because there is no electric or magnetic field at such a point
E) No forces at all, because there is no material object at such a point

A) Yes; it is the force of gravity in both cases.
B) Yes; it is the centrifugal force in both cases.
C) No; gravity holds the sun's planets in their orbits, while nuclear forces hold the electrons in their orbits.
D) No; the sun's energy source is nuclear fusion, and fusion does not occur within individual atoms.
E) No; gravity holds planets in their orbits, while the electromagnetic force holds electrons in their orbits.

A) neutrons exist.
B) light is made of particles.
C) the atom contains a tiny nucleus containing most of the atom's mass.
D) electrons exist.
E) light is a wave.

A) gravitational.
B) centrifugal.
C) electromagnetic.
D) the strong nuclear force.
E) Nonsense-- these electrons have no forces acting on them.

A) Because electric forces cannot be exerted across the nearly empty space.
B) Because the effect of the electric force is absorbed by the air that normally surrounds us.
C) Because the atoms in each small portion of ordinary matter are at rest, so they produce no electromagnetic force.
D) Because there is no electric current in ordinary matter, so there can be no net macroscopic effect.
E) Because matter contains as many electrons as protons, leading to no net macroscopic effect.

A) a repulsive magnetic force on each other, but no electric force.
B) a repulsive electric force on each other, but no magnetic force.
C) an attractive electric force on each other, but no magnetic force.
D) an attractive magnetic force on each other, but no electric force.
E) no electric or magnetic forces on each other.

A) both electric and magnetic forces.
B) a repulsive electric force, but no magnetic force.
C) an attractive electric force, but no magnetic force.
D) no electromagnetic forces.
E) a magnetic force but no electric force.

A) a magnetic field
B) an electric field
C) Both of the above.
D) an electric force
E) no fields or forces of any kind

A) reduced to one- quarter of the original force.
B) halved.
C) unchanged.
D) doubled.
E) quadrupled.

A) the number of protons in its nucleus.
B) the number of electrons orbiting the nucleus of the ionized atom.
C) Both of the above.
D) None of the above.

A) there is no excess of electrons or protons on either terminal.
B) there are excess electrons on the positive terminal but no excess of protons on the negative terminal.
C) there are excess protons on the negative terminal and excess electrons on the positive terminal.
D) there are excess electrons on the negative terminal but no excess protons on the positive terminal.
E) there are excess electrons on the negative terminal and excess protons on the positive terminal.

A) a spark will jump between them, because the rubbing causes electrons to jump from one object to the other.
B) the transparency and the tissue exert magnetic forces on each other, because the electron orbits in the two objects are all put into the same alignment.
C) the two objects exert electric forces on each other, because the electron orbits in the two objects are all put into the same alignment.
D) the two objects exert magnetic forces on each other, because electrons are rubbed off of one and onto the other.
E) the two objects exert electric forces on each other, because electrons are rubbed off of one and onto the other.

A) The ion is repelled from both the transparency and from the tissue.
B) The ion is repelled from the positively charged transparency, but attracted to the negatively charged tissue.
C) The ion is attracted to the positively charged transparency, but repelled from the negatively charged tissue.
D) The ion is attracted to both the transparency and to the tissue.

A) the Wizard of Oz.
B) electric currents in the upper atmosphere.
C) charged particles at rest on Earth's surface and on clouds in the lower atmosphere.
D) electric currents in Earth's interior.
E) electric currents in the sun.

A) charges create electric fields.
B) a changing electric field creates a magnetic field.
C) moving charges create magnetic fields.
D) a changing magnetic field creates an electric field.
E) magnetic fields create electric fields.

A) 1 N.
B) 8 N.
C) 0.5 N.
D) 0.25 N.
E) 4 N.