8.2 Nuclear instability

    Cards (72)

    • Nuclear instability occurs when a nucleus is prone to radioactive decay because of an imbalance in the proton-to-neutron ratio
    • Too many neutrons in a nucleus may lead to beta-minus decay.
    • Nuclei with lower binding energy per nucleon are more likely to be unstable
      True
    • The weak nuclear force is responsible for beta decay.
    • The line of stability plots stable nuclei based on their number of protons and neutrons
      True
    • The line of stability is a graphical representation of stable nuclei based on their number of protons and neutrons
    • In alpha decay, the nucleus emits an alpha particle, which consists of 2 protons and 2 neutrons
    • What are two reasons for nuclear instability?
      Imbalanced nucleon ratio and excessive nuclear energy
    • The weak nuclear force is responsible for beta decay and has a relative strength of 10⁻⁶ compared to the strong nuclear force.strength
    • Radioactive decay is a nuclear reaction where unstable nuclei emit particles or energy
    • What is the process called when a heavy nucleus splits into smaller nuclei?
      Fission
    • The energy released during fusion is an example of a large energy release
    • The half-life of a radioactive material is the time it takes for half of its nuclei to decay.
    • What is the half-life of cobalt-60?
      5.27 years
    • What formula is used to calculate the age of a sample using radioactive dating?
      N(t) = N_{0} \cdot e^{ - \lambda t}</latex>
    • Nuclear instability always results in the emission of particles or energy to achieve a more stable configuration.

      True
    • The strong nuclear force has a range of approximately 1 fm
    • Match the nucleon ratio type with its corresponding decay mode:
      High Neutron ↔️ Beta-minus decay
      Low Neutron ↔️ Beta-plus decay
      Stable ↔️ None
    • During beta-minus decay, a neutron converts into a proton, an electron, and an antineutrino
    • Match the decay process with its required shielding:
      Alpha Decay ↔️ Paper or thin metal
      Beta-Minus Decay ↔️ Few millimeters of aluminum
      Gamma Decay ↔️ Thick lead or concrete
    • Nuclear transmutation involves changing the number of protons in the nucleus.

      True
    • What is the definition of half-life?
      Time for half decay
    • What is the formula relating the decay constant (λ) to the half-life (T½)?
      λ=\lambda =ln(2)T1/2 \frac{\ln(2)}{T_{1 / 2}}
    • Match the radioactive dating technique with its corresponding isotope and half-life:
      Carbon-14 ↔️ ¹⁴C (5,730 years)
      Uranium-Lead ↔️ ²³⁸U (4.5 billion years)
      Potassium-Argon ↔️ ⁴⁰K (1.3 billion years)
    • What type of shielding is required for gamma decay?
      Thick lead or concrete
    • Which radioactive isotope is used in medical imaging to create images of the body?
      Technetium-99m
    • Excessive nuclear energy in a nucleus often results in the emission of gamma rays to achieve stability.
    • The strong nuclear force is the strongest of the four fundamental forces in nature

      True
    • The strong nuclear force overcomes the electrostatic repulsion between protons.
    • What is the nucleon ratio also known as?
      Proton-to-neutron ratio
    • What happens to a nucleus when it deviates from the line of stability?
      Radioactive decay
    • Gamma decay changes the atomic number of the nucleus.
      False
    • What is the role of the strong nuclear force?
      Holds protons and neutrons together
    • What is the process called when two light nuclei combine to form a heavier nucleus?
      Fusion
    • In a nuclear reaction called fusion, two or more lighter nuclei combine to form a heavier nucleus
    • What is the term for the process where one element changes into another due to nuclear reactions?
      Nuclear transmutation
    • Classify the types of nuclear reactions based on their energy change from largest to smallest.
      1️⃣ Fusion
      2️⃣ Fission
      3️⃣ Radioactive decay
    • The remaining mass of a radioactive material after time t can be calculated using the formula N(t) = N₀ * e^(-λt).

      True
    • Match the radioactive dating technique with its corresponding radioactive isotope and half-life:
      Carbon Dating ↔️ Carbon-14 (5,730 years)
      Uranium-Lead Dating ↔️ Uranium-238 (4.5 billion years)
      Potassium-Argon Dating ↔️ Potassium-40 (1.3 billion years)
    • What is nuclear instability caused by?
      Imbalanced proton-to-neutron ratio
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