2.2 Stable and unstable nuclei

    Cards (63)

    • What are stable nuclei?
      Do not decay spontaneously
    • Stable nuclei emit alpha, beta, or gamma particles during decay.
      False
    • Neutrons have a charge of neutral
    • What does the strong nuclear force bind together in the nucleus?
      Protons and neutrons
    • The weak nuclear force is weaker than gravity.
      False
    • Isotopes have the same number of protons but different numbers of neutrons.
    • The neutron number is calculated as the difference between the mass number and the atomic number.
    • Unstable nuclei decay through processes like alpha, beta, and gamma emission.
    • Protons are located in the nucleus and have a positive charge.
    • The number of electrons in an atom is equal to the number of protons.
    • Order the forces by strength from strongest to weakest:
      1️⃣ Strong nuclear force
      2️⃣ Weak nuclear force
      3️⃣ Electromagnetic force
      4️⃣ Gravity
    • Match the atomic attribute with its definition:
      Atomic Number (Z) ↔️ Number of protons in the nucleus
      Mass Number (A) ↔️ Total protons and neutrons in the nucleus
      Neutron Number (N) ↔️ Number of neutrons in the nucleus
    • Gamma rays have low ionizing power but high penetration.
    • Gamma decay involves emitting high-energy photons
    • The radioactive decay curve follows an exponential decay pattern.

      True
    • Stable nuclei do not spontaneously decay.
      True
    • Electrons are negatively charged particles that orbit the nucleus in specific energy levels.

      True
    • The strong nuclear force is the strongest force in the nucleus, but it has a short range of approximately 1 femtometer.

      True
    • The weak nuclear force is weaker than the strong force but stronger than gravity.

      True
    • Isotopes can be represented using both symbol notation and name format.

      True
    • The mass number (A) represents the total number of protons and neutrons in the nucleus.
    • The mass number (A) represents the total number of protons and neutrons in the nucleus.
    • How do isotopes of the same element differ from each other?
      Number of neutrons
    • How is the neutron number (N) calculated?
      N = A - Z
    • For lighter elements, a neutron-to-proton ratio close to 1 typically results in greater nuclear stability.

      True
    • Match the properties of stable and unstable nuclei:
      Stable Nuclei ↔️ Balanced neutron-to-proton ratio
      Unstable Nuclei ↔️ Imbalanced neutron-to-proton ratio
    • What is radioactive decay?
      Unstable nuclei transform
    • Alpha decay results in a significant decrease in both mass and charge.
      True
    • Half-life is the time it takes for half of the radioactive atoms in a sample to decay.
    • Steps to analyze the decay of a radioactive isotope with a half-life of 5 years
      1️⃣ After 5 years, half the atoms have decayed
      2️⃣ After 10 years, a quarter of the atoms remain
      3️⃣ Predict the remaining radioactivity over time
    • Match the application of radioactive decay with its description:
      Radioactive Dating ↔️ Measures age of samples
      Nuclear Medicine ↔️ Medical imaging and treatment
      Nuclear Power ↔️ Generates electricity
    • Unstable nuclei decay to become more stable
    • Match the feature with the correct type of nuclei:
      Highly stable ↔️ Stable nuclei
      Decays spontaneously ↔️ Unstable nuclei
    • Where are protons located in an atom?
      In the nucleus
    • The number of protons in an atom determines its electrical neutrality.

      True
    • The weak nuclear force is responsible for beta decay.
    • Isotopes of the same element have the same chemical properties.

      True
    • How is Carbon-12 represented in symbol notation?
      612C_{6}^{12} \text{C}
    • Stable nuclei do not spontaneously decay or transform into other nuclei.

      True
    • What are the three fundamental particles of an atom?
      Protons, neutrons, electrons
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