Hello!
The half-life is the time of half-disintegration, it is the time in which half of the atoms of an isotope disintegrate.
We have the following data:
mo (initial mass) = 53.3 mg
m (final mass after time T) = ? (in mg)
x (number of periods elapsed) = ?
P (Half-life) = 10.0 minutes
T (Elapsed time for sample reduction) = 25.9 minutes
Let's find the number of periods elapsed (x), let us see:
[tex] T = x*P [/tex]
[tex] 25.9 = x*10.0 [/tex]
[tex] 25.9 = 10.0\:x [/tex]
[tex] 10.0\:x = 25.9 [/tex]
[tex] x = \dfrac{25.9}{10.0} [/tex]
[tex] \boxed{x = 2.59} [/tex]
Now, let's find the final mass (m) of this isotope after the elapsed time, let's see:
[tex] m = \dfrac{m_o}{2^x} [/tex]
[tex] m = \dfrac{53.3}{2^{2.59}} [/tex]
[tex] m \approx \dfrac{53.3}{6.021} [/tex]
[tex] \boxed{\boxed{m \approx 8.85\:mg}}\end{array}}\qquad\checkmark [/tex]
I Hope this helps, greetings ... DexteR! =)
