Table of contents

1. Matter and Measurements4h 31m
2. Atoms and the Periodic Table5h 23m
3. Ionic Compounds2h 18m
4. Molecular Compounds2h 18m
5. Classification & Balancing of Chemical Reactions3h 17m
6. Chemical Reactions & Quantities2h 27m
7. Energy, Rate and Equilibrium3h 46m
8. Gases, Liquids and Solids3h 25m
9. Solutions4h 10m
10. Acids and Bases3h 29m
11. Nuclear Chemistry56m
BONUS: Lab Techniques and Procedures1h 38m
BONUS: Mathematical Operations and Functions47m
12. Introduction to Organic Chemistry1h 34m
13. Alkenes, Alkynes, and Aromatic Compounds2h 12m
14. Compounds with Oxygen or Sulfur1h 6m
15. Aldehydes and Ketones1h 1m
16. Carboxylic Acids and Their Derivatives1h 11m
17. Amines39m
18. Amino Acids and Proteins1h 51m
19. Enzymes1h 37m
20. Carbohydrates1h 41m
21. The Generation of Biochemical Energy2h 8m
22. Carbohydrate Metabolism2h 22m
23. Lipids2h 26m
24. Lipid Metabolism1h 45m
25. Protein and Amino Acid Metabolism1h 37m
26. Nucleic Acids and Protein Synthesis2h 54m

11. Nuclear Chemistry

Beta Decay

GOB Chemistry

11. Nuclear Chemistry

Beta Decay

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3:08 minutes

Problem 7

Textbook Question

The red arrow in the graph (see margin) indicates the changes that occur in the nucleus of an atom during a nuclear reaction. Identify the isotopes involved as product and reactant, and name the type of decay process.

Verified step by step guidance

Step 1: Analyze the graph. The red arrow indicates a change in the atomic number from 28 to 29 and a decrease in the number of neutrons from 36 to 35. This suggests a nuclear reaction where the nucleus of the atom undergoes a transformation.

Step 2: Identify the reactant isotope. The initial point on the graph corresponds to an atomic number of 28 and 36 neutrons. The atomic number represents the element nickel (Ni), and the mass number is calculated as the sum of protons and neutrons: 28 + 36 = 64. Thus, the reactant isotope is Ni-64.

Step 3: Identify the product isotope. The final point on the graph corresponds to an atomic number of 29 and 35 neutrons. The atomic number represents the element copper (Cu), and the mass number is calculated as the sum of protons and neutrons: 29 + 35 = 64. Thus, the product isotope is Cu-64.

Step 4: Determine the type of decay process. The increase in atomic number by 1 and the decrease in neutrons by 1 indicate that a neutron has been converted into a proton. This is characteristic of beta decay, specifically beta-minus decay, where a neutron emits an electron (beta particle) and transforms into a proton.

Step 5: Summarize the reaction. The nuclear reaction involves the beta-minus decay of Ni-64, resulting in the formation of Cu-64. This process is represented as:

{Ni}_{64} → {Cu}_{64} + β

^-.

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Key Concepts

Here are the essential concepts you must grasp in order to answer the question correctly.

Isotopes

Isotopes are variants of a particular chemical element that have the same number of protons but different numbers of neutrons. This difference in neutron count results in varying atomic masses. In nuclear reactions, isotopes can be transformed into one another, which is crucial for understanding the reactants and products involved in decay processes.

Nuclear Decay

Nuclear decay is the process by which an unstable atomic nucleus loses energy by emitting radiation. This can occur in various forms, including alpha decay, beta decay, and gamma decay. The type of decay affects the identity of the isotopes involved, as it determines how the nucleus changes during the reaction.

Beta Decay

Beta decay is a specific type of nuclear decay where a neutron in the nucleus is transformed into a proton, emitting a beta particle (an electron or positron) in the process. This results in an increase in the atomic number of the element by one, while the mass number remains unchanged. The graph indicates a transition from one isotope to another, highlighting the beta decay process.

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Related Practice

Textbook Question

Complete each of the following nuclear equations and describe the type of radiation:

c. ⁶⁶₂₉Cu → ⁶⁶₃₀Zn + ?

Textbook Question

Bone and bony structures contain calcium and phosphorus.

a. Why would the radioisotopes calcium-47 and phosphorus-32 be used in the diagnosis and treatment of bone diseases?

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Textbook Question

How can a nucleus emit an electron during β decay when there are no electrons present in the nucleus to begin with?

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Textbook Question

In problems 5.51 to 5.54, a nucleus is shown with protons and neutrons.

Draw the nucleus that emits a beta particle to complete the following:

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Textbook Question

A β-emitting radiation source gives 250 units of radiation at a distance of 4.0 m. At what distance does the radiation drop to one-tenth its original value?

Complete each of the following nuclear equations and describe the type of radiation:

c. ⁶⁶₂₉Cu → ⁶⁶₃₀Zn + ?

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