Polonium-218-------------alpha---------------Lead-214
An alpha and a beta emission
alpha decay
It would become vandium, iron, titanium or maganese depending on the amount of decay and the half-life of chromium
Carbon 13 is stable; it does not decay into carbon 14. Since carbon 14 has a greater mass, such a decay would be impossible.
Citrate synthase is inhibited by ATP. Obviously, the Krebs cycle produces ATP. This is the first step and one of the major regulatory steps in the pathway. If the cell has plenty of ATP, then it wouldn't need to keep making it, thus the pathway needs to be shut off. ATP inhibits the enzyme to shut off the pathway. This is an example of feedback inhibition (you can also call it negative inhibition or even product inhibition). Feedback inhibition is when the products of a certain biochemical pathway inhibit earlier enzymes, shutting down the pathway.
No. In both the cases the element would definitely change. As alpha particle comes out then the new element would have two less in atomic number where as in beta particle decay the new element will have one higher in atomic number.
An alpha and beta emission
The teeth will slowly decay if you do not brush your teeth.
The pathway that the toxins would most likely follow on first entering the plant is PHLOEM.
phloem
"Pathways" would be the plural form.
That would be radioactive decay.
Radon-198 does not decay via beta decay. It is thought to decay by alpha decay, but that is not certain. The equation would be ... 86198Rn -> (Alpha, T1/2 = 86 ms) -> 84194Po + 24He2+
alpha decay
Polonium-218 decay to lead-214.
Sure it will. "Radioactive" means just that - that the corresponding isotope will decay.
Oxygen-17 is stable and does not decay.
I would assume, 'On the road to glory'.