The law of conservation of energy states that the total energy in the universe is a constant and will remain so for example ( x=y+z ). conservation of energy has to do with reducing the amount of energy used through reduced activity and/or increased efficiency in the performance of a particular task.
Unless I really missed something along the way, energy is energy, and it's always conserved (that is, it doesn't get lost). I have no idea who told you that the "conservation of mechanical energy" and "the universal law of conservation of energy" are different things, but I'd get away from them if I were you. If you can't do that, then ask this person to show you the mathematical difference. (There isn't one.)
1. The Law of Conservation of Energy takes into consideration ALL types of energy, not just mechanical energy.
2. The Law of Conservation of Energy is always fulfilled. Conservation of mechanical energy is not strictly fulfilled - mechanical energy may get lost, due to friction (and converted into other types of energy, which are not counted as "mechanical energy"). But conservation of mechanical energy is still useful for some calculations, when you can assume that friction is insignificant).
The conservation of energy is a law.
No energy is lost during an energy transition.
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 are a lot of relationships between health and physics. The most common relationship between health and physics is the use of MRI, X-rays or other imaging technologies to see the interior of the body. Physics and mechanical engineering are the main professions which are required to create such technology.
the relationship between physics and pharmacy
Physics is the science of energy and forces.
Physics is the science the deals with matter and energy and the interactions that occur between them. If you want to learn more about it and its branches go to nearest library or google it! Thanks and have a nice day!
There is no difference between the two, it's just another way of wording the phrase.
There are no differences in the numbers.
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 are a lot of relationships between health and physics. The most common relationship between health and physics is the use of MRI, X-rays or other imaging technologies to see the interior of the body. Physics and mechanical engineering are the main professions which are required to create such technology.
write the point of differences between the follwing scalar and vector
An electronics multiplexer will select an output by a digital code. a mechanical multiplexer will select an out by a mechanical switch of sort possibly driven by a motor
The differences are that mechanical weathering breaks rocks into little pieces.. Chemical weathering not only breaks the rock but dissolves it.
biological weathering is when plants grow inside of a rock and break it apart, mechanical weathering is when rocks are broken apart by a force
it is fairly new and people are discovering new things about it all the timebecause we have not yet figured out the fundamental principles of physics yet... the differences between the physics of the macro, and the physics of the micro do not add up and create a good picture.Read more: Why_is_physics_considered_a_pioneer_sciencethats the answer :p
They should, as there weren't any major mechanical differences between the two.
there is nothing difference in our science branches, if you see deeply in biology ,you find chemistry then if you see deeply in chemistry ,you can find physics, same thing you can find incredible maths in physics.....
Well The book has different characters because it has A Non Mechanical Shark