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Usage Examples
Filter by Meaning Isotopes are used in forensics to determine the origin of a substance.
The physicist used isotopes to study the behavior of atoms in a magnetic field.
Nuclear power plants use isotopes to generate electricity.
Isotopes of uranium are used for nuclear fuel, but also pose significant environmental and health risks.
Astronomers study the isotopes found in meteorites to learn more about the early solar system.
Doctors use isotopes in medical imaging to diagnose and treat diseases.
Researchers can use isotopes to study the migration patterns of animals.
Paleontologists use isotopes to learn more about the diets of extinct animals.
Isotopes of hydrogen can be used to trace the movement of water in the ocean.
Radiocarbon dating relies on the decay of carbon-14 isotopes.
The isotopes of an element can have different half-lives, which affects their usefulness in various applications.
Theoretical isotopes are important in the development of new materials and technologies.
Theoretical isotopes may have unique chemical and physical properties that differ significantly from known isotopes.
Geologists use isotopes to study the Earth's history.
Stable isotopes are used in environmental studies to trace pollution sources and track the movement of contaminants.
Isotopes of an element can have different half-lives, which determines their stability and decay rate.
Isotopes play a crucial role in understanding the evolution and age of stars in astrophysics.
The abundance of certain isotopes in rocks can provide insights into the history of the solar system.
The half-life of certain isotopes is used to determine the age of fossils.
A geologist can analyze isotopes in rocks to understand the history of the Earth.
Archaeologists can use isotopes to understand the diets and migration patterns of ancient humans.
The isotopes of xenon, including xenon-124 and xenon-136, are used in the study of nuclear reactions and the properties of matter.
The isotopes of sulfur can help trace the sources of air pollution.
The isotopes of nitrogen are used to understand the nitrogen cycle in nature.
The isotopes of helium can be used to determine the age of rocks and minerals.
The isotopes of uranium are used to date rocks and geological formations.
The isotopes of oxygen can help determine the temperature at which a rock was formed.
The isotopes of carbon-12 and carbon-14 can be used to determine the age of ancient fossils.
Isotopes are used in carbon dating to determine the age of fossils.
Isotopes are used in agriculture to study plant metabolism.
The isotopes of an element have the same atomic number but different masses.
Isotopes can be used to trace the flow of water through an ecosystem.
The existence of isotopes with atomic numbers greater than 118 is still just theoretical.
Theoretical isotopes have the same number of protons but different numbers of neutrons.
The search for theoretical isotopes is an important area of research.
Scientists predict the existence of isotopes that have yet to be observed.
Theoretical isotopes are important in nuclear physics.
Water can exist in different isotopes, such as hydrogen-1, hydrogen-2, and hydrogen-3.
The study of isotopes in forensics can help determine the geographic origin of a person or an object.
Scientists use computer models to predict the properties of theoretical isotopes.
Theoretical isotopes may be important in understanding the behavior of elements.
Theoretical isotopes may have important applications in technology.
Isotopes that have not yet been observed are purely theoretical.
Theoretical isotopes are predicted to have unique properties.
Some isotopes of certain elements are predicted to have extremely long half-lives, making them difficult to detect.
Scientists are currently investigating the properties and behavior of isotopes that have yet to be observed.
Theoretical isotopes may have important applications in fields such as energy production and medical imaging.
The study of theoretical isotopes involves the use of advanced computational methods and simulations.
Research into theoretical isotopes may provide insight into the behavior of matter in extreme environments, such as inside stars.
Theoretical isotopes are often named according to their expected atomic number and mass.
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