Here's your equation for the beta minus decay of carbon-14: 614C => 714N + e- + ve An atom of carbon-14 transforms into an atom of nitrogen-14 here. In carbon-14, a down quark in a neurton becomes an up quark. This change, mediated by the weak interaction or weak force, changes that neutron into a proton. This creates another element, the nitrogen, and an electron is created within the nucleus and then is ejected along with an antineutrion. Use the link below to learn more about beta decay.
I'm not sure if this is totally right but this is what I think:
14 C (the 6= atomic # and it's supposed to be below the 14) --> 0 e + 14 B
6 - 1 5
Carbon-13 does not decay. It is a stable nuclide.
Nitrogen-13 decays with a half-life of 9.965 minutes by beta+ decay to carbon-13, emitting a positron and an electron neutrino.
713N --> 613C + e+ + ve
Nitrogen-13 decays to carbon-13 by beta+ decay, emitting a positron and an electron neutrino.
713N + energy --> 613C + e+ + ve
Lead-209 undergoes beta- decay to become Bismuth-209 82209Pb --> 83209Bi + -10e + v-e emitting an electron and an electron antineutrino.
There is no equation. Calcium-42 is stable and does not decay. Calcium is also much to light for alpha decay, which requires elements heavier than nickel, so no isotope of calcium undergoes alpha decay.
ncxc
The equation for the beta decay of 24Na is: 1124Na --> 1224Mg + -10e where the e is a negative beta particle or electron.
The equation for the beta decay of 17F: 917F --> 817O+ 10e + ve where the 10e is a positive beta particle or positron.
92Au 282Xe +13S
The only hydrogen isotope that undergoes any type of radioactive decay is tritium (hydrogen-3), it undergoes beta decay to become helium-3. If that's not what you were asking about, I'm confused by your question.
Americium-244 undergoes beta decay: 95244Am --> 96244Cm + -10e where -10e is a negative beta particle or electron.
The equation for the beta decay of 137Cs:55137Cs --> 56137Ba + -10e where the e is a negative beta particle or electron.
All nuclear decay is spontaneous.
Thorium 234: Beta decay. Atomic number increases by 1.
Beta Particle
Lead-209 undergoes beta- decay to become Bismuth-209 82209Pb --> 83209Bi + -10e + v-e emitting an electron and an electron antineutrino.
Natural chromium is stable and does not decay/
Carbon-14 undergoes beta decay, becoming nitrogen-14 which is stable.
Energy and electrical charge are two quantities that are always conserved in nuclear decay equation.
The decay equation is:Co-60----------------------Ni-60 + e-