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Strontium-90 would not be useful for determining the age of fossils because it has a relatively short half-life of about 29 years, which means it decays too quickly to be effective for dating ancient fossils. Fossils are typically millions of years old, so isotopes with longer half-lives, like carbon-14 or uranium-238, are more suitable for dating. Additionally, strontium-90 is primarily produced from nuclear reactions and is not naturally occurring in significant amounts in geological contexts.
carbon-14
precambrian
Carbon-14 is useful in carbon dating because it is a radioactive isotope that decays at a known rate, allowing scientists to estimate the age of organic materials up to about 50,000 years old. Its ratio to stable carbon isotopes in living organisms allows for accurate dating once the organism dies and stops taking in carbon. Stable isotopes, on the other hand, do not decay and cannot provide age estimations, making them unsuitable for dating purposes.
Old
Carbon 14 is useful for dating organic remains less than 60-70,000 years old. It is not useful for fossils as the vast majority are much older than that.
Carbon-14 is useful in radioactive dating because it decays at a predictable rate over time. By measuring the amount of carbon-14 remaining in organic materials, scientists can determine their age. This helps in dating ancient artifacts, fossils, and other organic materials.
Carbon-14 is useful in carbon dating because it is a radioactive isotope that decays at a known rate over time. By measuring the amount of carbon-14 remaining in a sample, scientists can determine how long it has been since the organism died. This helps accurately determine the age of organic materials by providing a reliable method for dating archaeological artifacts and fossils.
Carbon dating can be used to date organic materials, such as wood, bones, shells, and charcoal. It is particularly useful for determining the age of archaeological artifacts and fossils that are up to about 50,000 years old.
Carbon-14 is in all living things and decays after it dies. It has a long half life (the time it takes for half a sample to decay into another element) and gives a good estimate as to how old something is. Carbon dating is only effective up to an approximate age of 70,000 years, and is only useful in dating organic matter. Since the vast majority of fossils are much older than this, carbon dating is not particularly useful in dating fossils, but is of great use in archaeology.
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An example of radiochemical dating is carbon-14 dating, which is used to determine the age of organic materials. It measures the ratio of carbon-14, a radioactive isotope, to carbon-12 in a sample. As carbon-14 decays at a known rate (its half-life is about 5,730 years), scientists can estimate how long it has been since the organism died. This method is particularly useful for dating artifacts, fossils, and other biological remains up to about 50,000 years old.
Strontium-90 would not be useful for determining the age of fossils because it has a relatively short half-life of about 29 years, which means it decays too quickly to be effective for dating ancient fossils. Fossils are typically millions of years old, so isotopes with longer half-lives, like carbon-14 or uranium-238, are more suitable for dating. Additionally, strontium-90 is primarily produced from nuclear reactions and is not naturally occurring in significant amounts in geological contexts.
carbon-14
It is not useful in dating rocks. Only organic substances in terrestrial conditions. No carbon in rocks.
Metal artifacts rarely contain residues of organic products. Carbon-14 dating is adequate only for artifacts containing organic materials.