Nuclear fission is commonly used in nuclear power plants to generate electricity. The advantage of nuclear fusion is that it has the potential to produce large amounts of energy with minimal waste and no greenhouse gas emissions.
The half-life of a nuclide is crucial for a number of purposes, such as determining the age of archaeological artifacts and determining whether or not the storage of radioactive waste is safe.
The process of breaking up an atomic nucleus into two or more smaller nuclei and releasing a lot of energy is known as nuclear fission. The fission process uses energy to heat water and make steam, which drives turbines that turn into electricity.
The utilization of atomic splitting in power plants enjoys the benefit of delivering a lot of energy with somewhat modest quantities of fuel, and it doesn't discharge ozone depleting substances.
The process of combining two atomic nuclei into a single, more massive nucleus with the release of a significant amount of energy is known as nuclear fusion. This natural process is being investigated as a potential source of energy on Earth and in other stars.
The time it takes for half of a given amount of a radioactive substance to decay is known as the half-life of a nuclide. Scientists can calculate how much of a substance will remain after a certain amount of time by knowing its half-life, allowing them to make educated decisions regarding its safe handling.
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B....Energy is removed from the particles in each change, but more energy is removed in boiling than in melting because the attractions are weaker.
C....Energy is added to the particles in each change, but boiling requires more energy than melting because the attractions must be completely overcome.
D....Energy is added to the particles in each change, but melting requires more energy than boiling because the attractions must be completely overcome.
C. Energy is added to the particles in each change, but boiling requires more energy than melting because the attractions must be completely overcome.