Asked by Ellie
can someone please help me?
Having studied the data for patterns and trends, you should now be able to draw some conclusions about how knowing the half-life of the element Lokium would help you determine the absolute age of rock in which this element is found. In a paragraph, create an imaginary example of finding a given amount of Lokium and DOL in a rock, and then determining the absolute age of that rock. Assume that each trial represents 1,000 years.
Having studied the data for patterns and trends, you should now be able to draw some conclusions about how knowing the half-life of the element Lokium would help you determine the absolute age of rock in which this element is found. In a paragraph, create an imaginary example of finding a given amount of Lokium and DOL in a rock, and then determining the absolute age of that rock. Assume that each trial represents 1,000 years.
Answers
Answered by
R_scott
DOL is the Lokium decay product?
half-life is the time it takes for half of the Lokium atoms to decay into DOL atoms
elapsed time = {log[(L atoms) / (L + D atoms)] / log(1/2)} * (half-life L)
half-life is the time it takes for half of the Lokium atoms to decay into DOL atoms
elapsed time = {log[(L atoms) / (L + D atoms)] / log(1/2)} * (half-life L)
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yeah yeh uh
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feet
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you think they would change the answers
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