Solving Halflife Question: Calculating Age of Ancient Oak Wine Cask

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Homework Help Overview

The discussion revolves around determining the age of an ancient oak wine cask using radioactive carbon-14 dating. The original poster presents a scenario where the cask's carbon-14 activity is one-quarter that of a modern sample, prompting the need to calculate its age based on this information.

Discussion Character

  • Exploratory, Mathematical reasoning, Assumption checking

Approaches and Questions Raised

  • The original poster attempts to apply the half-life equation for carbon-14 but expresses uncertainty in formulating it correctly. Some participants suggest using the equation directly and consider the implications of the activity levels in relation to half-lives. Others inquire about alternative methods, such as using logarithms to solve for time.

Discussion Status

The discussion is active, with participants providing insights on how to approach the problem mathematically. There is recognition of different methods to solve the problem, including the potential use of logarithms, but no consensus has been reached on a single method or solution.

Contextual Notes

Participants are navigating the constraints of the problem, including the specific half-life of carbon-14 and the relationship between activity levels and age. The original poster's uncertainty in applying the equation suggests a need for clarification on the setup and assumptions involved in the calculation.

DanialD
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Homework Statement



An archaeologist finds an oak wine cask in one of her digs. Testing the activity from the radioactive carbon-14 in the cask reveals that it is only one-quarter that of the activity coming from the modern sample of the same type of oak. How old is the sample?


Homework Equations


A=Anaught(.5)^(t/t1/2)


The Attempt at a Solution


I tried finding the halflife of carbon-14 (which is 5.73EXP3a) from a chart given in my textbook.
after that, i tried filling int he blanks for my equation above, but i just didnt know how to formulate it.
 
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You could use your equation to solve this one. The amount of carbon 14 based radioactivity is proportional to the amount of Carbon 14 present.

A = A _0 (0.5)^{\frac{t}{t_{1/2}}}

Here, A_0 can be considered the activity of the modern sample. Since it is being used as the reference of comparison, you can set it equal to 1. Then A becomes the activity of a sample relative to a modern sample (0.25 in this case). t _{1/2} is the halflife. Then just solve for t.

There's also an easier way to do this particular problem. If the activity is 1/2 of that compared to a modern sample, then the age is one halflife. If the activity is 1/2 of 1/2, then the age is two halflives, and so on.
 
Thank you so much, you helped me a lot.
Just a question, is there another way to formulate this question using log?
 
DanialD said:
Thank you so much, you helped me a lot.
Just a question, is there another way to formulate this question using log?

There certainly is! Just take the logarithm of both sides of the equation, and note that

Log(x^a) = aLog(x)

or more specifically in this case,

Log \left( \left(0.5 \right) ^\frac{t}{t_{1/2}} \right) = \frac{t}{t_{1/2}}Log(0.5)

You'd have to do that anyway when solving for t. So in other words, take the logarithm of both sides (noting the above identity), and solve for t.

Btw, I used the common logarithm, but you can use the natural logarithm if you'd like or logarithms of any base for that matter. Whatever you prefer.
 
again, thanks so much!
 

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