Polonium-218-------------alpha---------------Lead-214
alpha decay
If chromium undergoes gamma decay, it remains as chromium. Gamma decay is a type of radioactive decay where a nucleus releases gamma rays to reach a more stable state, but the identity of the element remains the same.
Thorium-219 has a half-life of about 1.4 minutes. To calculate the time it takes for a 2kg sample to decay to 15.6g, you would need to use the radioactive decay formula. This would involve determining the number of half-lives it takes for the 2kg sample to decay to 15.6g.
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.
it supports it because, if you were to put all of it's products on a scale with the product before it decayed, the mass would still be balanced it supports it because, if you were to put all of it's products on a scale with the product before it decayed, the mass would still be balanced
An alpha and beta emission
The teeth will slowly decay if you do not brush your teeth.
Oxygen-17 would become fluorine-17 after undergoing alpha decay, and then it would decay into oxygen-17 again after undergoing beta decay. Alpha decay involves emitting an alpha particle comprising two protons and two neutrons, while beta decay involves either emitting an electron (beta minus decay) or a positron (beta plus decay) to change the nucleus.
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.
Sure it will. "Radioactive" means just that - that the corresponding isotope will decay.
Polonium-218 decay to lead-214.
To accurately identify the type of decay, I would need more context about the specific decay you're referring to. Common types of decay include radioactive decay (such as alpha, beta, or gamma decay), exponential decay in physics or population studies, or even chemical decay. Please provide additional details or specify the context for a precise answer.
Tooth decay
I would assume, 'On the road to glory'.