We have no reason to think that the force of gravity has or ever will become weaker over time.
gamma decay beta decay alpha decay
I believe relative decay is the decay over time.
The natural isotope 227Ac decay: - by beta minus decay: to 227Th - by alpha decay: to 223Fr
The only possible product of the alpha decay of 92238U is 90234Th.
It depends on which isotope of bismuth we are talking about. Most isotopes less than bismuth-209 that decay by beta do so via beta+, and they decay to lead, while most isotopes greater than bismuth-209 that decay by beta do so via beta-, and they decay to polonium.There are some isotopes that decay by other mechanisms, such as alpha, but the question asked only about beta.
Radioactive materials decay over half lifes but they never actually dissapear.
The primal heat from the deep interior of the Earth is mainly due to radioactive decay, with a small contribution due to gravity compression.
This is called inverse beta decay and it forms a neutron. Normally a neutron will decay into a proton and electron, but the opposite will happen given enough energy. Coincidentally, this is how neutron stars are formed (the immense pressure from gravity overcomes the force separating protons and electrons.)
gamma decay beta decay alpha decay
I believe relative decay is the decay over time.
The decay of radioactive isotopes.The decay of radioactive isotopes.The decay of radioactive isotopes.The decay of radioactive isotopes.
The natural isotope 227Ac decay: - by beta minus decay: to 227Th - by alpha decay: to 223Fr
Radium-226 does not decay by beta decay. It decays by alpha decay to radon-222.
The decay products of ununhexium (after alpha decay) are isotopes of ununquadium.
alpha decay, beta decay, and gamma radiation
Yes they decay
Decay is correct.