* thermal energy * chemical energy * nuclear energy * mechanical energy * magnetic energy * electrical energy * radiant energy * elastic energy * sound energy * luminous energy * gravitational energy
here are some: -Linear Kinetic energy -Rotational Kinetic energy -Heat energy -Atomic energy -Electrical energy -Sound energy -Solar energy -Wind energy -Tidal energy -Wave energy -Hydro energy -Nuclear energy -Succesive ionization energy
Kinetic Energy. Potential Energy . Mechanical Energy . Thermal Energy . Electromagnetic Energy . Electric Energy . Nuclear Energy . --Chemical Energy .
chemical energy,light energy,gravitational energy,,sound energy,kinetic energy,electrical energy,elastic energy,and heat energy.hope that helps hehe
The energy associated with energy is known as "energy".
There is no such thing as "interconversion of body" in this case. There are energy conversions; perhaps that's what you mean?
temparature and pressure
Concentration for equilibrium in fructose sugar
Changes of pressure or temperature
The interconversion of states of matter is used to : (i) generate electricity in thermal power plant.(ii) separate nitrogen and oxygen from air by liquefaction. (iii) prepare machine parts.(iv) prepare room fresheners.(v) prepare ice-creams.
interconversion between solid to liquid to gas is physical change
Carbohydrate metabolism denotes the various biochemical processes responsible for the formation, breakdown and interconversion of carbohydrates in living organisms.
A very simplistic answer is: lactates are converted by glycolysis in glucose; the process is reversible.
Yes, it is true. This triangle is useful for schools. See the link below for a figure.
William James Hamilton has written: 'Mechanism and stereochemistry studies in the synthesis and interconversion of oxaziridines and nitrones'
The potential energy decreases as the body falls while the kinetic energy increases. P.E.=mass x gravity x height The shorter the height the less potential energy there is K.E.= 1/2 x mass x velocity^2 The velocity increases as the body falls and the bigger the velocity the more Kinetic Energy produced
In biology, the ATP molecule has the role of "universal energy currency" of living organisms. This can be explained in thermodynamic terms, such as: "The endergonic processes(those that require the input of energy) that maintain the living state are driven by the exergonic reactions (those that release energy) of nutrient oxidation". This coupling is most often mediated through the synthesis of a few types of "high-energy" intermediates whose exergonic consumption drives endergonic processes. These intermediates, therefore, form a sort of universal free energy "currency" through which free energy-producing reactions "pay for" the free energy-consuming processes in biological systems. ATP, which occurs in all known life forms, is the "high-energy" intermediate that constitutes the most common cellular energy currency. ATP is consumed in a variety of ways, such as 1) Early stages of nutrient breakdown; 2) interconversion of nucleoside triphosphates; 3) physiological processes, and 4) additional phosphoanydride cleavage in highly endergonic reactions.