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When the rate of radioactive decay becomes smaller half life becomes what?
When the rate of radioactive decay decreases, the half-life of the radioactive substance increases. This is because a smaller decay rate means that it takes a longer time for half of the radioactive atoms to decay. Consequently, the half-life, which is the time required for half of the substance to decay, extends as the decay rate diminishes.
How is a radioactive element's rate of decay?
A radioactive element's rate of decay is characterized by its half-life, which is the time required for half of the radioactive atoms in a sample to decay into a more stable form. This process occurs at a constant rate, unique to each isotope, and is unaffected by external conditions like temperature or pressure. The decay follows an exponential decay model, meaning that as time progresses, the quantity of the radioactive substance decreases rapidly at first and then more slowly.
As the temperature of a radioactive sample increases the rate of the nuclear decay?
The rate of nuclear decay increases as the temperature of a radioactive sample increases. This is due to the increased kinetic energy of the nuclei at higher temperatures, which facilitates interactions that lead to nuclear decay.
How the radioactive decay rate be changed?
The rate cannot be changed.
What are the properties of radioactive decay?
Radioactive decay has the following properties: 1. No element can completely decay. 2. The number of atoms decaying in a particular period is proportional to the number of atoms present in the beginning of that period. 3. Estimate of radioactive decay can be made by half life and decay constant of a radioactive element.
Which of the following can change the rate of radioactive decay?
For all practical purposes, No. However, there is a very small effect on some elements due to pressure (E.g. http://www.sciencemag.org/cgi/content/abstract/181/4105/1164), there is a small effect upon Beta Decay due to magnetic field strength, and there is an effect due to ionization.
The rate of radioactive decay does not depend on temperature pressure or chemical reactions?
According to earlier theory: The rate of radioactive decay can never be changed.But conflicting claims have recently appeared. Claims about how temperature appears to have an effect on the decay rate of some elements. The distance from the sun appears to have an effect as well.
Does the rate of radioactive decay slow by extreme cooling?
No, radioactive decay isn't affected by anything - temperature or pressure because it isn't a chemical or physical reaction.
How can the rate of radioactive decay change over time?
The rate of radioactive decay can change over time due to factors such as the type of radioactive material, environmental conditions, and any external influences. The decay rate is generally constant for a specific radioactive isotope, but it can be affected by changes in temperature, pressure, or chemical reactions. Additionally, the decay rate can also be influenced by the presence of other radioactive materials or particles that may interact with the original material.
When the rate of radioactive decay becomes smaller half life becomes what?
When the rate of radioactive decay decreases, the half-life of the radioactive substance increases. This is because a smaller decay rate means that it takes a longer time for half of the radioactive atoms to decay. Consequently, the half-life, which is the time required for half of the substance to decay, extends as the decay rate diminishes.
How is a radioactive element's rate of decay?
A radioactive element's rate of decay is characterized by its half-life, which is the time required for half of the radioactive atoms in a sample to decay into a more stable form. This process occurs at a constant rate, unique to each isotope, and is unaffected by external conditions like temperature or pressure. The decay follows an exponential decay model, meaning that as time progresses, the quantity of the radioactive substance decreases rapidly at first and then more slowly.
As the temperature of a radioactive sample increases the rate of the nuclear decay?
The rate of nuclear decay increases as the temperature of a radioactive sample increases. This is due to the increased kinetic energy of the nuclei at higher temperatures, which facilitates interactions that lead to nuclear decay.
How the radioactive decay rate be changed?
The rate cannot be changed.
What is the radioactive decay law?
The rate of decay (activity) of a radioactive isotope is proportional to the number of atoms of the isotope present.
What is radioactive decay law?
The rate of decay (activity) of a radioactive isotope is proportional to the number of atoms of the isotope present.
Does radioactive decay occurs at a gradually changing rate?
no
What are the properties of radioactive decay?
Radioactive decay has the following properties: 1. No element can completely decay. 2. The number of atoms decaying in a particular period is proportional to the number of atoms present in the beginning of that period. 3. Estimate of radioactive decay can be made by half life and decay constant of a radioactive element.
