physics ch 16
between nuclear fission and nuclear fusion, radioactive by-products are more characteristic of nuclear a. fission b. fusion c. both d. none
a. fission
a proton has the greatest mass in the nucleus of a. hydrogen b. iron c. lead d. uranium e. plutonium
a. hydrogen
when two light atoms fuse together, mass a. is converted to kinetic energy or neutrons b. is created form energy of other forms c. remains the same d. is gained
a. is converted to kinetic energy of neutrons
in a mass spectrometer, a variety of singly-ionized atomic nuclei are directed into a magnetic field where they are deflected and strike a detecting screen. The particles to undergo the greatest deflection are the particles with the a. less mass b. greatest mass c. same for all
a. least mass
compared to the mass of a uranium nucleus before splitting, the pieces it splits into have a. less mass b. the same mass c. more mass
a. less mass
in nuclear fission and nuclear fusion reactions, the amount of mass converted to energy of other forms is a. less than 1% b. about 10% c. about 20% d. about 30% e. more than 30%
a. less than 1%
it's impossible for a hydrogen atom to emit an alpha particle a. true b. false
a. true
if an alpha particle and beta particle have the same energy, which particle will penetrate farther into an object a. alpha particle b. beta particle c. they both penetrate the same distance
b. beta particle
in both fission and fusion, mass a. is created from energy or other forms b. converts kinetic energy b. remains the same
b. converts kinetic energy
a nuclear process that has relatively few radioactive by-products is a. fission b. fusion c. both of these have comparable radioactive by-products
b. fusion
x-rays may be regarded as a. high frequency sound waves b. high frequency radio waves c. both of these d. none of these
b. high frequency radio waves
generally speaking, the larger a nucleus is, the greater its a. stability b. instability c. neither
b. instability
a nucleon has the least mass in the nucleus of a. hydrogen b. iron c. lead d. uranium e. plutonium
b. iron
the nucleus with the most tightly bound nucleon is a. hydrogen b. iron c. lead d. uranium e. plutonium
b. iron
detonation of fission type atomic bomb is started by a. splitting a small piece of uranium b. pressing together several small pieces of uranium c. igniting a small thermonuclear bomb d. turning on a laser cross fire e. none
b. pressing together several small pieces of uranium
electric forces within an atomic nucleus tend to a. hold it together b. push it apart c. neither of these
b. push it apart
deuterium and tritium are both a. forms of hydrogen b. isotopes of the same element c. both of these d. neither of these
c. both of these
in fissioning or uranium, a chain reaction is cause by a. the enormous energy release b. the kinetic energy of the decay products c. ejected neutrons d. the conversion of mass to energy e. none
c. ejected neutrons
which radiation has no electric charge associated with it a. alpha rays b. beta rays c. gamma rays d. all of these e. none
c. gamma rays
detonation of a fusion type hydrogen bomb is started by a. splitting a small piece of uranium b. pressing together several small pieces of uranium c. igniting a small thermonuclear bomb d. turning on a laser cross fire e. none
c. igniting a small thermonuclear bomb
uranium-235, uranium-238 and uranium-239 are different a. elements b. ions c. isotopes d. none
c. isotopes
the half-life of an isotope is one day. at the end of two days the amount that remains is a. none b. one-half c. one-quarter d. one-eighth e. none
c. one-quarter
a nucleon is either a. a positron or an electron b. a proton or an electron c. a neutron or an electron d. a proton or a neutron
d. a proton or a neutron
which experiences the least electrical force in an electric field a. alpha particle b. beta particle c. electron d. gamma ray e. all experience the same force
d. gamma ray
a chain reaction grows when the average number of liberated neutrons which go on to cause further fissions is a. zero b. less than one c. one d. greater than one
d. greater than one
different isotopes of an element have different number of a. protons b. hadrons c. photons d. neutrons e. none of these
d. neutrons
the half lives of elements beyond uranium are too short for these elements to occur in natural deposits. but elements below uranium that have equally short half lives do occur in natural deposits. this is because they are a. the small leftover of huge abundances when the earth formed b. subdued and preserved by pressures beneath the earth c. bound with longer-living elements d. the products of uranium decay
d. the products of uranium decay
the mass of an atomic nucleon is nearly a. twice the mass of an electron b. four times the mass of an electron c. a thousand times the mass of an electron d. two thousand times the mass of an electron
d. two thousand times the mass of an electron
the nucleus with the greatest mass is a. hydrogen b. iron c. lead d. uranium e. plutonium
e. plutonium
