Carbon thirteen … C13
It is called an Isotope.... C12, C13, C14 is a classical example
Neutron/Proton Ratio
Because when you deal with hydrocarbons, you are dealing with many hydrogens in different environments. The abundance of the H1 isotope is also very high, so high signal scans take only 1 min 40 on a normal NMR compared to >1 hr for C13
Every atom, ion, and isotope of the same element will have the same number of protons. Hydrogen has one proton.
Protons are not coupling. Only electrons can coupled.
Carbon thirteen … C13
Ionized hydrogen-1 isotope is identical to a proton.
It is called an Isotope.... C12, C13, C14 is a classical example
Neutron/Proton Ratio
They cannot be compared because a proton is a part of the atom and an isotope is just a variant of a particular chemical element which is made of atoms
the first isotope of hydrogen
Because when you deal with hydrocarbons, you are dealing with many hydrogens in different environments. The abundance of the H1 isotope is also very high, so high signal scans take only 1 min 40 on a normal NMR compared to >1 hr for C13
No neutrons; H-1 has only one proton and one electron.
The most common isotope of hydrogen has one proton, and one electron.The most common isotope of hydrogen has one proton, and one electron.The most common isotope of hydrogen has one proton, and one electron.The most common isotope of hydrogen has one proton, and one electron.
Most commonly, a hydrogen nuclei is simply a proton. If you are dealing with a hydrogen isotope (H2 or H3) then it is a proton and 1 or 2 neutrons. Most commonly, a hydrogen nuclei is simply a proton. If you are dealing with a hydrogen isotope (H2 or H3) then it is a proton and 1 or 2 neutrons.
neutron to proton ratio :)