This course covers the basics of Nuclear Chemistry, as it may be taught in a first-year college chemistry course if there is time to do so. A year of General Chemistry will provide the necessary background.
Students in this course have access to ample supplemental material, all of which will be found in the Resource Folders. In addition to the 6 hours of lectures, downloadable audio mp3 files of each lecture are included. For nearly all lectures, a Practice Assignment where you can test your understanding of the material can be found in the Resource Folder. Also included is a detailed answer key for each Practice Assignment. Any graphs, figures or tables presented in the lectures are also available as downloadable files. The content of this course is as extensive as both of my General Chemistry courses that are also available on Udemy.
This course assumes that you have completed General Chemistry I & II college courses. While you will not need to be famaliar with all topics covered in those courses, you should have a good understanding of atomic structure, converting between different units, particularly between mass and moles, first-order kinetics and stoichiometry. Because nuclear decay follows first-order kinetics, familiarity with natural logarithms and exponential functions is a plus. Since this course covers only the basics of Nuclear Chemistry, calculus is not required. In fact, not every topic in this course will involve math. Anyone who is interested in learning about various aspects of this topic may find this course beneficial, especially if you had no exposure to Nuclear Chemistry in your studies.
- Basic topics on Nuclear Chemistry are all covered here.
- Each topic is covered is great detail with plenty of examples and practice assignments for each lecture.
- Introduction to Nuclear Chemistry
- Review of Atomic and Nuclear Structures
- Nuclear Binding Energy
- Nuclear Stability
- Nuclear Reactions
- Radioactive Decay Processes
- Balancing Nuclear Reactions and Radioactive Decay
- Radioactive Half-Lives
- Radioactive Decay Series
- Radiometric Dating
- Nuclear Fission
- Nuclear Reactors
- Nuclear Fusion
- Transmutation Reactions
- Uses of Radioisotopes
- Detecting and Measuring Radioactivity
- Biological Effects of Radiation