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Radioactivity is limited by the natural decay-time to stable isotopes and there is no known way to shorten a half-life.

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12y ago
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7mo ago

The property of half-lives that makes radioactive material problematic is that they can remain dangerous for long periods of time. This means that even after a substantial amount of time has passed, the material can still emit radiation and pose a threat to human health and the environment.

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Q: What property of half-lives makes radioactive material so problematic?
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All radioactive nuclides of an element have the same half life?

No, halflife is a bulk statistical property of a quantity of an isotope of an element.Individual nuclei do not have halflives, instead they have a probability of decaying at the current moment of time.


Will the radioactive property remain in an ionic compound when a metal element is highly radioactive combined with a non-metal element which is non-radioactive?

No, the radioactive property of the metal element will not transfer to the ionic compound formed with the non-metal element. Radioactivity is a property of the atomic nucleus, and when elements combine to form compounds, their electronic configurations determine their chemical properties, not their nuclear properties.


How do you explain the half-time of a radioactive material?

The half-life of a radioactive material is the time it takes for half of a sample of the substance to decay. It is a characteristic property of the specific radioactive isotope and is used to determine the rate of decay and the stability of the material. The half-life can vary greatly depending on the isotope, ranging from fractions of a second to billions of years.


What is the time it takes for the amount of a radioactive parent material to decrease by one-half called?

The time it takes for the amount of a radioactive parent material to decrease by one-half is called the half-life. It is a characteristic property of each radioactive isotope and is used to determine the rate of decay.


What property of radioactive elements make them useful for determining absolute age?

The property of radioactive decay is what makes radioactive elements useful for determining absolute age. By measuring the amount of parent and daughter isotopes in a sample, scientists can calculate the age of the material based on the known half-life of the radioactive element.


What does the half life of a radioisotope correspond to?

The length of time required for half of a sample of radioactive material to decay


What are the physical characteristics of the material?

- a radioactive material emit nuclear radiations as alpha, beta, gamma, neutrons - a radioactive material disintegrate in time


Is radioactive a chemical or physical?

Chemical property


What is the definition of property in scientific terms?

characteristic or functionality of a material = property of a material


Why does radioactive parent material break down into daughter material?

A fundamental property of radioactive material is that the atomic nucleus has an unstable configuration. The nucleus of a single atom of such material may break down at any instant, or may never break down at all, but with a large number of atoms in a collection, there is a statistical probability that half of them will break down in a given amount of time, which is known as the "half life" for that radioactive material. Exactly why this should be so is a mystery which cannot be adequately explained, but is observed and accepted as such. A deeper understanding of this phenomenon would probably give us a better insight into the true nature of the universe as a whole.


What is a property of a material?

It will be crystal.Crystal is the main property


Why wouldn't heating radioactive uranium make it decay faster?

Heating radioactive uranium would not make it decay faster because the decay rate of a radioactive material is a fundamental property of that specific isotope and is not affected by external factors like temperature. The decay rate of uranium is governed by its half-life, which is a constant characteristic of the isotope. Heating the uranium would not alter this intrinsic property and thus would not impact the decay rate.