6.4.1 Radioactivity

    Cards (115)

    • Alpha decay reduces the atomic number by 2 and the mass number by 4.

      True
    • The half-life of a radioactive isotope is the time it takes for half of its nuclei to decay.

      True
    • What are the particles emitted in alpha decay?
      Alpha particles
    • In beta-minus decay, a neutron converts into a proton, emitting an electron and an antineutrino
    • In beta-minus decay, the atomic number increases by one
    • What is the general nuclear equation for alpha decay?
      ZAXZ2A4Y+^{A}_{Z}X \rightarrow ^{A - 4}_{Z - 2}Y +24He ^{4}_{2}He
    • Cobalt-60 emits gamma rays after beta-minus decay
    • Gamma decay involves the emission of high-energy photons.
    • The mass number changes in beta-plus decay.
      False
    • What is the change in atomic number during alpha decay?
      Decreases by 2
    • In beta-plus decay, a proton emits a positron and a neutrino.
    • Gamma decay involves the emission of high-energy photons called gamma rays.
    • What is the process of radioactivity?
      Spontaneous emission of radiation
    • Match each decay type with its emitted particle:
      Alpha (α) decay ↔️ Alpha particle (\( ^4_2He \))
      Beta-minus (β−) decay ↔️ Electron (e−) and antineutrino (\(\overline{ν}_e\))
      Beta-plus (β+) decay ↔️ Positron (e+) and neutrino (\(ν_e\))
      Gamma (γ) decay ↔️ Gamma ray (\( γ \))
    • What happens to the atomic number in alpha decay?
      Decreases by 2
    • What are the two types of beta decay?
      β− and β+
    • Alpha decay involves the emission of a particle with two protons and two neutrons.

      True
    • In β− decay, the atomic number increases by 1, while the mass number remains unchanged.

      True
    • Gamma decay changes both the atomic and mass numbers of the nucleus.
      False
    • Gamma decay is a radioactive process where an excited nucleus emits a gamma ray
    • In a nuclear equation, the original nucleus is represented as <sup>A</sup><sub>Z</sub>X
    • In beta-plus decay, a proton converts into a neutron, emitting a positron and a neutrino
    • Beta particles are more ionizing than alpha particles.
      False
    • Alpha particles can penetrate through a sheet of aluminum foil.
      False
    • The half-life of an isotope is used to predict its decay
    • Match the decay type with its effect on the nucleus:
      Alpha Decay ↔️ Reduces atomic number by 2
      Beta-Minus Decay ↔️ Increases atomic number by 1
      Beta-Plus Decay ↔️ Reduces atomic number by 1
      Gamma Decay ↔️ No change in atomic number
    • What is radioactivity defined as?
      Spontaneous emission of radiation
    • In beta-minus decay, a neutron converts into a proton, emitting an electron and an antineutrino
    • The radioactive decay formula involves understanding the rate of decay and the initial number of nuclei
    • The three main types of radioactive decay are alpha, beta, and gamma
    • Gamma decay changes neither the atomic nor the mass number of a nucleus.

      True
    • Match the decay type with its corresponding atomic number change:
      Alpha (α) ↔️ Decreases by 2
      Beta-Minus (β−) ↔️ Increases by 1
      Beta-Plus (β+) ↔️ Decreases by 1
      Gamma (γ) ↔️ No change
    • Uranium-238 decays into thorium-234 by emitting an alpha particle
    • Alpha decay decreases the mass number by 4.

      True
    • What particle is emitted in alpha decay?
      Alpha particle
    • An alpha particle is equivalent to a helium nucleus.
    • Alpha decay of Uranium-238 results in Thorium-234 and an alpha particle.

      True
    • What happens to the mass number in beta-minus decay?
      Remains unchanged
    • The nuclear equation for gamma decay is ^A_ZX^* \rightarrow ^A_ZX + γ</latex> where γ represents the gamma ray.
    • Radioactivity is a predictable process that occurs with external influence.
      False
    See similar decks