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Not quite sure what you mean; let's just say that living systems don't require any extraordinary efforts to conserve energy and mass, because that's what they do naturally, i.e., "be conserved". There is no known way to violate conservation of energy or mass.
Abraham had a son when he was 100 years old, the son was named Isaac.
E=mc2 demonstrates that matter can be changed into energy and vice versa, which would appear to mean that matter can be created and destroyed. A way around this would be to consider mass and energy as part of the same value.
what is Sir Isaic Newton
Assuming that you mean "Did Isaac Newton's parents divorce" or "Were Isaac Newton's parents divorced" or even "Where did Isaac Newton's parents divorce", the answer is NO. Isaac Newton's father (also named Isaac Newton) died in October of 1642, before his son was even born. His mother, Hannah Ayscough, remarried when he was two. She also survived her second husband, who died in 1653. His mother died in 1679, twice married but never divorced.
A short story, but it depends on what you mean. Isaac Asimov wrote a story about a robot named Robbie, and it was a short story. The short story was included in a collection that the publisher called I, Robot (even though Isaac Asimov didn't agree with the title, since there was already a Sci Fi short story with that name that Asimov had read). Isaac Asimov's story, originally called Robbie, was expanded and published under a couple of different names after that, and the ideas behind the story were expanded into several novels in Asimov's robot series. I robot is a collection of nine short stories woven together as if a single narrator is telling the stories to a newspaper report.
Perhaps you mean "energy conservation", or equivalently, "conservation of energy". That refers to the fact that there is a quantity called energy, which can't be increased or decreased (in a closed system).
reducing energy use
The law of "conservation of energy" states that energy can neither be created nor destroyed by any chemical or physical means. These days, many scientists are talking about conservation. Conserving energy does mean saving energy.
That is because the law of conservation of energy states that you can not create new energy.
Conservation of momentum means the sum of Momentum is constant. Conservation of Momentum is the result of Conservation of Energy.
The main theme is that the clues of something may not exactly mean what you think, it could mean something totally different! (I think, I'm not sure though)
The law of conservation of energy itself is not strictly correct since nuclear reactions change a small amount of matter into energy, if this is what you mean.
Conservation of energy means that the total energy of a system remains constant no matter what the internal changes are.
It means that energy is conserved; that is, the total amount of energy will neither increase nor decrease.
Conservation means that a product or resource is used only when needed, and is not wasted. Energy conservation means that steps are being taken to save on wasted energy, to conserve and keep extra energy to use in the future.
This can easily be understood with conservation of energy. Assuming that no energy is lost, potential energy is continuously converted to kinetic energy, and vice versa. At the mean position, the potential energy is zero, therefore the kinetic energy (and hence the velocity) is at maximum.This can easily be understood with conservation of energy. Assuming that no energy is lost, potential energy is continuously converted to kinetic energy, and vice versa. At the mean position, the potential energy is zero, therefore the kinetic energy (and hence the velocity) is at maximum.This can easily be understood with conservation of energy. Assuming that no energy is lost, potential energy is continuously converted to kinetic energy, and vice versa. At the mean position, the potential energy is zero, therefore the kinetic energy (and hence the velocity) is at maximum.This can easily be understood with conservation of energy. Assuming that no energy is lost, potential energy is continuously converted to kinetic energy, and vice versa. At the mean position, the potential energy is zero, therefore the kinetic energy (and hence the velocity) is at maximum.