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If matter, mass, and energy were not conserved, it would violate fundamental laws of physics and lead to unpredictable and chaotic behavior in the universe. This could result in unstable systems, unexpected interactions, and potentially the breakdown of the laws that govern our understanding of the universe.
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Within which type of system is neither the total mass nor the total energy conserved?
In an open system, neither total mass nor total energy is typically conserved. This is because open systems can exchange matter and energy with the surrounding environment, leading to changes in mass and energy within the system itself.
What would happen to matter if there were no energy?
Without energy, matter would not have the ability to move or interact with other matter. All processes that require energy, such as chemical reactions, biological processes, and the functioning of machines, would cease. Essentially, the universe would be frozen in a state of complete stillness.
What if energy was not conserved?
If energy were not conserved, it would mean that energy could seemingly appear out of nowhere or disappear without a trace, violating one of the fundamental principles in physics. This would have significant implications for our understanding of the universe and the way it operates.
What would happen to the amount of matter on earth if mass were not conversed during changes of state?
If mass were not conserved during changes of state, the amount of matter on Earth would fluctuate as substances undergo phase changes. This would lead to inconsistencies in measurements and make it difficult to accurately determine the total amount of matter on Earth at any given time.
What will happen if energy will be destroyed?
Energy cannot be destroyed, as stated in the Law of Conservation of Energy. It can only change forms, such as from potential to kinetic energy. If energy were to be destroyed, it would violate this fundamental law of physics.
What would happen if the electric charge of the universe is not conserved?
It's infinate...
Within which type of system is neither the total mass nor the total energy conserved?
In an open system, neither total mass nor total energy is typically conserved. This is because open systems can exchange matter and energy with the surrounding environment, leading to changes in mass and energy within the system itself.
What would happen to matter if there were no energy?
Without energy, matter would not have the ability to move or interact with other matter. All processes that require energy, such as chemical reactions, biological processes, and the functioning of machines, would cease. Essentially, the universe would be frozen in a state of complete stillness.
Is it possible that energy from the sun can be conserved?
Not in any foreseeable future would we be able to alter these immense quantities of energy.
What if energy was not conserved?
If energy were not conserved, it would mean that energy could seemingly appear out of nowhere or disappear without a trace, violating one of the fundamental principles in physics. This would have significant implications for our understanding of the universe and the way it operates.
Distinguish beween and elastic and inelastic collision for wich type of collision is momentum conserved?
Momentum is conserved in both elastic and inelastic collisions. Mechanical energy is conserved only in elastic collisions. In inelastic collisions, part of the energy is "lost" - usually most of it would be converted to heat, eventually.
What would happen to the amount of matter on earth if mass were not conversed during changes of state?
If mass were not conserved during changes of state, the amount of matter on Earth would fluctuate as substances undergo phase changes. This would lead to inconsistencies in measurements and make it difficult to accurately determine the total amount of matter on Earth at any given time.
What would happen if matter didn't exist?
nothing would happen because there would be nothing
Why did scientists believe in a neutrino long before it was detected?
This was because of laws of conservation of: momentum, angular momentum, and energy. In certain reactions, these were apparently not conserved; a hypothetical particle would resolve the observed discrepancy.This was because of laws of conservation of: momentum, angular momentum, and energy. In certain reactions, these were apparently not conserved; a hypothetical particle would resolve the observed discrepancy.This was because of laws of conservation of: momentum, angular momentum, and energy. In certain reactions, these were apparently not conserved; a hypothetical particle would resolve the observed discrepancy.This was because of laws of conservation of: momentum, angular momentum, and energy. In certain reactions, these were apparently not conserved; a hypothetical particle would resolve the observed discrepancy.
What will happen if energy will be destroyed?
Energy cannot be destroyed, as stated in the Law of Conservation of Energy. It can only change forms, such as from potential to kinetic energy. If energy were to be destroyed, it would violate this fundamental law of physics.
Is it true that substances can be neither created nor destroyed?
It depends on what you accept as 'being destroyed'. The only thing that is conserved is the matter/energy constant. Matter can be converted into an equivalent amount of energy. Some people would consider this 'being destroyed' but the amount of energy is always the same.
What would have happened if energy and mass together were not conserved in this universe?
In that case, it is my understanding that the very laws of physics would change over time. For more information, do some reading on Noether's Theorem. It includes some very advanced math, but briefly, every law of conservation is related to a symmetry in nature - and the Law of Conservation of Energy can be derived from the fact that the laws of nature don't change over time.
