Asked by Anonymous
The rate of decay is proportional to the mass for radioactive material. For a certain radioactive isotope, this rate of decay is given by the differential equation dm/dt = -.022m, where m is the mass of the isotope in mg and t is the time in years.
A. If m(0)=20, write a function m(t) for the radioactive decay of the isotope. Show the steps in separating variables of the given differential equation and solving the equation for m.
B. The half-life of a radioactive substance is the time required for half of the substance to decay. What is the half-life of this radioactive isotope to the nearest tenth of a year?
A. If m(0)=20, write a function m(t) for the radioactive decay of the isotope. Show the steps in separating variables of the given differential equation and solving the equation for m.
B. The half-life of a radioactive substance is the time required for half of the substance to decay. What is the half-life of this radioactive isotope to the nearest tenth of a year?
Answers
Answered by
Steve
c'mon, you can do this.
dm/dt = -0.22m
dm/m = -0.22 dt
ln(m) = -0.22t + c
m = c e^(-0.22t)
c is the initial amount, so
m(t) = 20 e^(-0.22t)
I'm sure you can find the half-life now, ok?
dm/dt = -0.22m
dm/m = -0.22 dt
ln(m) = -0.22t + c
m = c e^(-0.22t)
c is the initial amount, so
m(t) = 20 e^(-0.22t)
I'm sure you can find the half-life now, ok?
Answered by
M
Steve ur a savage
Answered by
Steve
Thank you
Answered by
Mr. Hojman
Do not cheat and use this website!
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