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A geochemist wants to date a layer of rock by looking at the radioactive decay of Ur4+ to Pb2+. She decides to look at a sample of zircon, which takes one 4+ cation into its crystalline structure, rather than a sample of sphene, which takes both 4+ and 2+ cations into its structure. Which of the following best supports her reasoning?

A) Every Pb2+ atom detected in the zircon sample must be the result of radioactive decay, while some Pb2+ atoms found in sphene could have been incorporated during its formation.

B) If two different types of cations are present in a sample, it is possible that they are both undergoing radioactive decay, and she will not be able to separate the effects of the two.

C) Because zircon is simpler, the analysis will require fewer steps, minimizing the possible propagation of error.

D) Sphene has the capacity to trap the Pb2+ ions that result from radioactive decay; accurate radiometric dating requires the releas

Respuesta :

quasarJose

A) Every Pb2+ atom detected in the zircon sample must be the result of radioactive decay, while some Pb2+ atoms found in sphene could have been incorporated during its formation.

Explanation:

The reason why the geochemist will prefer to use the ziron which takes the 4+ cation would be because, every Pb2+ atom detected in the zircon sample must be the result of radioactive decay, while some Pb2+ atoms found in sphene could have been incorporated during its formation.

✓ The Pb 2+ produced the daughter isotopes of the radioactive decays.

✓ To properly date the rock sample, any external source of the daughter isotopes should be eradicated.

✓ This will help to establish a fair ratio between the parent and daughter isotopes in order to track the decay rate.

✓ This is why the Zircon would be preferred to the Sphene.

Learn more:

Radioactive https://brainly.com/question/4207569

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