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All changes, other than some nuclear reactions, must obey the Law of Conservation of Mass. Chemical reactions, physical changes, heating, cooling, and phase changes must obey the Law of Conservation of Mass.
When water is used to produce electricity.In this process, firstly,water is allowed to fall from great heights,so potential energy is converted to kinetic energy(K.E.). Then this energy is used to rotate the turbine of a generator which produces electricity. Thus potential energy of water in a dam is converted into kinetic energy which is then converted to electric energy.
Do you mean one that obeys SHM (simple harmonic motion)?It will just basically, as it goes through its oscillation, transfer energy between potential energy and kinetic energy. There are other machines that use SHM, particularly in the field of electromagnetism, but they work on different princiapls, although still obey SHM.
Pair production is the transformation of electromagnetic energy into matter, into a particle and its antiparticle, usually an electron and a positron. Let's have a look at this situation. When a high energy gamma ray with a minimum energy of 1.022 MeV passes close to an atomic nucleus, a phenomenon called pair production can occur. In this event, the energy of the gamma ray is converted into mass. It's a play right out of Albert Einstein's quantum mechanical playbook. The electron and positron are opposites of each other, and the appearance of an elementary particle and its antiparticle must obey conservation laws. That's where the "assistance" of a nearby atomic nucleus comes in. The electron and positron will appear and come away from the event with some given kinetic energy, and will scatter and slow down as they move off. The positron, of course, will end up combining with an electron in a mutual annihilation event where the two particles have their mass entirely converted into energy. This will result in a pair of electromagnetic rays, or photons, leaving the annihilation event and moving in opposite directions.
yes
Sure, total energy is always conserved.
Yes, everything obey the conservation of energy laws.
All chemical reactions obey the law of conservation of matter.
The law of conservation of matter is applied to processes not to a compound.
the chemical equation for photosynthesis and cellular respiration obey the law of conservation is given below.the chemical equation for photosynthesis is :6CO2 + 6H2O ==> C6H12O6 + 6O2.The number of atoms are same on both sides even after the reaction.Hence, obey the law of conservationthe chemical equation for cellular respiration is :C6H12O6(s) + 6O2(g) → 6CO2(g) + 6H2O(l) + Energy (as ATP) .The number of atoms are same on both sides even after the reaction.Hence, obey the law of conservation.
for both fission and fusion is E=Mc2 energy is mass and vise verse, in both fission and fusion some mass gets lost in the process. this mass gets converted to energy.
All changes, other than some nuclear reactions, must obey the Law of Conservation of Mass. Chemical reactions, physical changes, heating, cooling, and phase changes must obey the Law of Conservation of Mass.
Yes, because the equation is balanced
All forms of energy obey the laws of entropy.
The number of atoms in the reactant and products must be equal to obey the law of conservation of mass.
It's either obey the law of conservation of mass, causing new matter to be created or it is an execption to the law of conservation of mass.
some rules you must obey at home are no playing ball in the house, don't write on the walls, no running in the house and don't act like animals