6.7 Exponential and logarithmic models (Page 3/16)

College algebra

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Carbon-14 is a radioactive isotope of carbon that has a half-life of 5,730 years. It occurs in small quantities in the carbon dioxide in the air we breathe. Most of the carbon on Earth is carbon-12, which has an atomic weight of 12 and is not radioactive. Scientists have determined the ratio of carbon-14 to carbon-12 in the air for the last 60,000 years, using tree rings and other organic samples of known dates—although the ratio has changed slightly over the centuries.

As long as a plant or animal is alive, the ratio of the two isotopes of carbon in its body is close to the ratio in the atmosphere. When it dies, the carbon-14 in its body decays and is not replaced. By comparing the ratio of carbon-14 to carbon-12 in a decaying sample to the known ratio in the atmosphere, the date the plant or animal died can be approximated.

Since the half-life of carbon-14 is 5,730 years, the formula for the amount of carbon-14 remaining after $t$ years is

A \approx A_{0} e^{(\frac{\ln (0.5)}{5730}) t}

where

$A$ is the amount of carbon-14 remaining
$A_{0}$ is the amount of carbon-14 when the plant or animal began decaying.

This formula is derived as follows:

\begin{array}{l} A = A_{0} e^{k t} & The continuous growth formula . \\ 0.5 A_{0} = A_{0} e^{k \cdot 5730} & Substitute the half-life for t and 0.5 A_{0} for f (t) . \\ 0.5 = e^{5730 k} & Divide by A_{0} . \\ \ln (0.5) = 5730 k & Take the natural log of both sides . \\ k = \frac{\ln (0.5)}{5730} & Divide by the coefficient of k . \\ A = A_{0} e^{(\frac{\ln (0.5)}{5730}) t} & Substitute for r in the continuous growth formula . \end{array}

To find the age of an object, we solve this equation for $t :$

t = \frac{\ln (\frac{A}{A_{0}})}{- 0.000121}

Out of necessity, we neglect here the many details that a scientist takes into consideration when doing carbon-14 dating, and we only look at the basic formula. The ratio of carbon-14 to carbon-12 in the atmosphere is approximately 0.0000000001%. Let $r$ be the ratio of carbon-14 to carbon-12 in the organic artifact or fossil to be dated, determined by a method called liquid scintillation. From the equation $A \approx A_{0} e^{- 0.000121 t}$ we know the ratio of the percentage of carbon-14 in the object we are dating to the percentage of carbon-14 in the atmosphere is $r = \frac{A}{A_{0}} \approx e^{- 0.000121 t} .$ We solve this equation for $t,$ to get

t = \frac{\ln (r)}{- 0.000121}

How To

Given the percentage of carbon-14 in an object, determine its age.

Express the given percentage of carbon-14 as an equivalent decimal, $k .$
Substitute for k in the equation $t = \frac{\ln (r)}{- 0.000121}$ and solve for the age, $t .$

Finding the age of a bone

A bone fragment is found that contains 20% of its original carbon-14. To the nearest year, how old is the bone?

We substitute $20 % = 0.20$ for $k$ in the equation and solve for $t :$

\begin{array}{l} t = \frac{\ln (r)}{- 0.000121} & Use the general form of the equation . \\ = \frac{\ln (0.20)}{- 0.000121} \begin{matrix}  \end{matrix} & Substitute for r . \\ \approx 13301 & Round to the nearest year . \end{array}

The bone fragment is about 13,301 years old.

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Cesium-137 has a half-life of about 30 years. If we begin with 200 mg of cesium-137, will it take more or less than 230 years until only 1 milligram remains?

less than 230 years, 229.3157 to be exact

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Calculating doubling time

For decaying quantities, we determined how long it took for half of a substance to decay. For growing quantities, we might want to find out how long it takes for a quantity to double. As we mentioned above, the time it takes for a quantity to double is called the doubling time .

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Source: OpenStax, College algebra. OpenStax CNX. Feb 06, 2015 Download for free at https://legacy.cnx.org/content/col11759/1.3

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