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Classical Physics
Where does this equation for stationary points come from?
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[QUOTE="S.G. Janssens, post: 5830252, member: 571630"] If you want to have it explained then it requires a bit of calculus. Namely, it is a theorem that if ##A## is a function depending on variables ##x_1,\ldots,x_n## and all partial derivatives ##\frac{\partial A}{\partial x_i}## exist as continuous functions, then the total derivative of ##A## is given by ##\nabla A = (\frac{\partial A}{\partial x_1},\ldots,\frac{\partial A}{\partial x_n})##. This implies that the change $$ A(\mathbf{x} + \Delta{\mathbf{x}}) - A(\mathbf{x}) = \nabla{A} \cdot \Delta{\mathbf{x}} + O(\|\Delta{x}\|^2) \qquad (\ast) $$ where ##\cdot## denotes the inner product, so $$ \nabla{A} \cdot \Delta{\mathbf{x}} = \sum_i{\frac{\partial A}{\partial x_i}\Delta x_i} $$ and ##O(\|\Delta{x}\|^2)## are terms of at least quadratic order. I believe that physicists then argue that as ##\|\Delta{x}\|## becomes "infinitesimally small", these quadratic terms can be neglected and what is left in ##(\ast)## is denoted ##\delta A##. [/QUOTE]
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Classical Physics
Where does this equation for stationary points come from?
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