What is the amount of energy released when a carbon carbon single bond is broken?
how do i even figure this out?
Look it up in a book if that is permissible. Or on the web. I just posted an answer for Chrissy a few posts after this one. I found 347 kJ/mole for a C-C bond energy (average value).
To determine the amount of energy released when a carbon-carbon single bond is broken, you need to consult the literature or scientific databases that provide thermodynamic data for chemical reactions.
One such database is the National Institute of Standards and Technology (NIST) Chemistry WebBook, which contains extensive data on thermophysical and thermochemical properties for various compounds and reactions, including bond energies.
To use the NIST Chemistry WebBook, you can follow these steps:
1. Access the NIST Chemistry WebBook online at https://webbook.nist.gov/chemistry/.
2. Use the search bar on the homepage to enter the compound or reaction you are interested in. In this case, you might search for "carbon-carbon single bond energy."
3. Review the search results to find the specific bond energy you are looking for. The results may include different experimental and theoretical values, so it's important to carefully read and analyze the available information.
4. Once you find the relevant bond energy value, note the units in which it is reported. Common units for bond energies are kilocalories per mole (kcal/mol) or kilojoules per mole (kJ/mol).
5. Use the reported bond energy value to determine the energy released when a carbon-carbon single bond is broken. If the bond energy is reported as the energy required to break the bond, you can consider the negative of that value as the energy released when the bond is broken.
Remember that bond energies can vary depending on the specific context, such as the molecules involved and the immediate chemical environment. Therefore, it's crucial to refer to reliable sources of data such as the NIST Chemistry WebBook to obtain accurate information.