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it is easy you can see any textbook........
Integration results in an equation which gives the area under the original equation between the bounds. Derivation results in an equation which gives the slope of the original line at any point.
See wikipedia article on polytropic processes.
The graph (on Cartesian coordinates) of a quadratic equation is a parabola.
in helmholtz vector equation why F=-∆ф+∆xA?
it is easy you can see any textbook........
http://en.wikipedia.org/wiki/Navier-Stokes_equations Please go to this page.
derivation of pedal equation
Gibbs-duhem-margules equation and its derivation
Rechardsons equation
Integration results in an equation which gives the area under the original equation between the bounds. Derivation results in an equation which gives the slope of the original line at any point.
See wikipedia article on polytropic processes.
There are basically SEVERAL continuity equations, one for each conserved quantity. The equations themselves are simply statements that matter (in the example of conservation of mass) will not appear out of nothing, or suddenly teleport to a far-away place.
polar
The graph (on Cartesian coordinates) of a quadratic equation is a parabola.
equation is a double differential relate to the energy of particle with wave function
in helmholtz vector equation why F=-∆ф+∆xA?