Carbon-14 has a half life of 5730 years. If a shell is found and has 52% of its original Carbon-14, how old is it?

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Carbon-14 has a half life of 5730 years. If a shell is found and has 52% of its original Carbon-14, how old is it?

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Answer 1 · 2016-08-16T21:07:29

Approximately $5406$ $5406$ years

Explanation:

$- 5730 \cdot {log}_{2} (\frac{52}{100}) = - 5730 \cdot \frac{log (\frac{52}{100})}{log (2)} \approx 5406$ $-5730 * log_2(52/100) = -5730 * log(52/100)/log(2) ~~ 5406$ years

The proportion of $^{14} C$ $""^14C$ remaining, compared with the original is modelled by the function:

$p (t) = \frac{2^{- t}}{5730}$ $p(t) = 2^-t/(5730)$

where $t$ $t$ is measured in years.

Given that $p (t) = \frac{52}{100}$ $p(t) = 52/100$ , we have:

$\frac{52}{100} = 2^{- \frac{t}{5730}}$ $52/100 = 2^(-t/5730)$

Taking logs base $2$ $2$ we have:

${log}_{2} (\frac{52}{100}) = - \frac{t}{5730}$ $log_2(52/100) = -t/5730$

So multiplying both sides by $- 5730$ $-5730$ and transposing we get the formula:

$t = - 5730 \cdot {log}_{2} (\frac{52}{100})$ $t = -5730*log_2(52/100)$

Footnote

The complexity of radiocarbon dating comes from two factors:

The proportion of $^{14} C$ $""^14C$ to $^{12} C$ $""^12C$ is very small to start with.
The proportion has been dramatically affected by factors like the industrial revolution, which replaced a significant portion (one third? one quarter?) of the $C O_{2}$ $CO_2$ in the atmosphere with carbon dioxide generated from fossil fuels - which contain virtually no remaining $^{14} C$ $""^14C$ . As a result the method needs calibration to provide accurate dates.

Answer 2 · 2016-08-16T21:27:08

$sf(5409color(white)(x)"yr")$

Explanation:

The expression for radioactive decay is:

$sf(N_t=N_0e^(-lambdat))$

$sf(N_0)$ is the initial number of undecayed atoms

$sf(N_t)$ is the number of undecayed atoms at time $sf(t)$

$sf(lambda)$ is the decay constant

Taking natural logs of both sides:

$sf(lnN_t=lnN_0-lambdat)$

$:.$ $sf(ln(N_t/N_0)=-lambdat)$

We can get the value of $sf(lambda)$ using the expression:

$sf(lambda=0.693/t_(1/2)=0.693/5730=1.209xx10^(-4)color(white)(x)a^(-1))$

Putting in the numbers:

$sf(ln(52/100)=-1.208xx10^(-4)xxt=-0.6539)$

$:.$ $sf(t=0.6539/(1.209xx10^(-4))=5409color(white)(x)yr)$

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Carbon-14 has a half life of 5730 years. If a shell is found and has 52% of its original Carbon-14, how old is it?

2 Answers

Explanation:

Explanation:

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