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The law of conservation of energy states that all energy in the universe is conserved. It can not be created nor destroyed, but it can be interchanged between mechanical and non-mechanical energy.
There is actually only one Law of Conservation of Energy, which states that the total amount of energy in a closed system (i.e., no energy gets in or out) remains constant.There is actually only one Law of Conservation of Energy, which states that the total amount of energy in a closed system (i.e., no energy gets in or out) remains constant.There is actually only one Law of Conservation of Energy, which states that the total amount of energy in a closed system (i.e., no energy gets in or out) remains constant.There is actually only one Law of Conservation of Energy, which states that the total amount of energy in a closed system (i.e., no energy gets in or out) remains constant.
I assume you are referring to the Law of Conservation of Matter. It states that during a chemical bond, energy and matter cannot be created, nor destroyed; the amount of energy and matter at the start is identical to the amount at the end.
The energy called heat, more specifically known as Kinetic Energy - the energy of Heat.Answer2:The energy of motion is cmV = cP, a vector energy. The sum of the particle energy is c x Sum of Pi
Yes energy can change from one form to another .The Law Of Conservation Of Energy states that whenever energy gets transformed the total energy remains unchanged
The law of conservation of energy states that all energy in the universe is conserved. It can not be created nor destroyed, but it can be interchanged between mechanical and non-mechanical energy.
It is because of the law of conservation of mass and energy, which states that the total amount of energy and mass in a closed system remains constant. This is because of Noether's Theorem. It states that some value in a symmetrical and closed system remains constant. Because of this, the mass and energy content of the universe remains constant as long as the laws of physics in it remain constant.
The Law of Conservation of Energy
There is actually only one Law of Conservation of Energy, which states that the total amount of energy in a closed system (i.e., no energy gets in or out) remains constant.There is actually only one Law of Conservation of Energy, which states that the total amount of energy in a closed system (i.e., no energy gets in or out) remains constant.There is actually only one Law of Conservation of Energy, which states that the total amount of energy in a closed system (i.e., no energy gets in or out) remains constant.There is actually only one Law of Conservation of Energy, which states that the total amount of energy in a closed system (i.e., no energy gets in or out) remains constant.
The Law of Conservation of Energy states that the total amount of energy remains constant - energy will not be created or destroyed.
You are thinking of the conservation of energy law which states energy can neither ber created or destroyed.
I assume you are referring to the Law of Conservation of Matter. It states that during a chemical bond, energy and matter cannot be created, nor destroyed; the amount of energy and matter at the start is identical to the amount at the end.
That is the law that states that energy can not be created or destroyed. In other words, the total amount of energy remains constant.
Current theory states that it's "dark energy".
In my opinion this question highlights the conflict between the 2 laws of thermodynamics.The First Law of Thermodynamics (Conservation) states that energy is always conserved, it cannot be created or destroyed. In essence, energy can be converted from one form into another.The Second Law of Thermodynamics states that in all energy exchanges, if no energy enters or leaves the system, the potential energy of the state will always be less than that of the initial state. This is also commonly referred to as entropy.Therefore if an 'expanding' or 'exploding' singularity created the Universe, the 1st Law states that all of the energy within that initial singularity must still be present in the Universe today and must remain within the Universe 'if' no energy enters or leaves the system.Whereas the 2nd Law states that potential energy of the Universe will always be less than that of the initial state.Some Physicists theorize that a Black Hole eventually decays, consuming the total energy within it - meaning energy leaves the system . . . and therefore abolishing both Laws of Thermodynamics in the process.Others suggest a multi-verse, or multiple string dimensional universe . . . which means that 'energy enters the system', also abolishing both Laws of Thermodynamics is the process.However, if the initial energy from the Big Bang remains in the Universe, The 1st Law leaves open the possibility that eventually another Big Bang could occur within the Universe, meaning that the Universe possibly could be more unstable than previously presumed, while the 2nd Law completely rules that possibility out.Basically, physicist's, astrophysicist's and quantum physicist's still do not know the nature of our universe completely, nor the eventual outcome of the Universe. All is still theory.
The energy called heat, more specifically known as Kinetic Energy - the energy of Heat.Answer2:The energy of motion is cmV = cP, a vector energy. The sum of the particle energy is c x Sum of Pi
Yes energy can change from one form to another .The Law Of Conservation Of Energy states that whenever energy gets transformed the total energy remains unchanged