It depends what is meant by 'decay'. It will not alter the atomic decay rate but elements can be chemically affected by the environment which can chemically decay them.
the decay rate of carbon is 14 in heart muscle cells,
It stays the same. Temperature has no effect on the rate of nuclear decay.
The rate cannot be changed.
T99 is Technetion 99 has a Decay rate of 6h
Well, possibly. If you ever try it, it might work. It depends if you use the right formula. It is possible and could be dangerous like amazing spiderman. Adventure is out there!
Any of the following can be used: the half-life, or the mean lifetime, or the decay constant.Any of the following can be used: the half-life, or the mean lifetime, or the decay constant.Any of the following can be used: the half-life, or the mean lifetime, or the decay constant.Any of the following can be used: the half-life, or the mean lifetime, or the decay constant.
It depends what is meant by 'decay'. It will not alter the atomic decay rate but elements can be chemically affected by the environment which can chemically decay them.
You may be referring to the rate of true positives. If you add a link/reference to a description of the ID3 algorithm that contains the Tp Rate, we can improve this answer.
the decay rate of carbon is 14 in heart muscle cells,
They decay at a predictable rate.
Yes, but the rate of decay depends on the conditions.
It stays the same. Temperature has no effect on the rate of nuclear decay.
The rate cannot be changed.
Decay rate and rate of regrowth
An algorithm is the process by which you solve a problem
a note on numerically unstable algorithm