What is the amount of energy released when a carbon carbon single bond is broken?
I looked it up in General Chemistry by Whitten, Davis, Peck, and found 347 for the average bond energy of a C-C bond in kJ/mole.
Bond breaking is an energy absorbing process. The question should read:
"What is the amount of energy absorbed when a carbon carbon single bond is broken?"
In a spontaneous decomposition, energy is released because of the formation of new, more stable bonds.
To determine the amount of energy released when a carbon-carbon single bond is broken, we need to look at the bond energy of a carbon-carbon single bond. Bond energy refers to the amount of energy required to break a bond between two atoms.
The bond energy of a carbon-carbon single bond is approximately 348 kilojoules per mole (kJ/mol). This means that to break one mole of carbon-carbon single bonds, 348 kJ of energy is required.
Keep in mind that bond energies can vary depending on the specific molecule and its environment. The value I provided is a typical average value for a carbon-carbon single bond, but it can deviate in certain cases.
If you want to find the energy released when a specific carbon-carbon single bond is broken, you would need to know the specific molecule involved and look up its bond energy in a reliable reference book or database. These sources typically list the bond energy values for various types of bonds in different molecules.