Warning: this is an htmlized version!
The original is here, and the conversion rules are here. |
% This file: % http://anggtwu.net/LATEX/⟦stem⟧-defs.tex.html % http://anggtwu.net/LATEX/⟦stem⟧-defs.tex % (find-angg "LATEX/⟦stem⟧-defs.tex") % Author: Eduardo Ochs <eduardoochs@gmail.com> % % (defun e () (interactive) (find-angg "LATEX/⟦stem⟧.tex")) % (defun ed () (interactive) (find-angg "LATEX/⟦stem⟧-defs.tex")) % «.reset» (to "reset") % «.DFI» (to "DFI") \sa {[E5]}{\CFname{E}{_5}} \sa {[E3]}{\CFname{E}{_3}} \sa {[E2]}{\CFname{E}{_2}} \sa {[S1]}{\CFname{S}{_1}} \sa {[S2]}{\CFname{S}{_2}} \sa {[S3]}{\CFname{S}{_3}} \def\P#1{\left( #1 \right)} % «reset» (to ".reset") \sa{reset}{ \sa {z} {z} \sa {z_x} {z_x} \sa {z_y} {z_y} } \ga{reset} % (c2m232edosexatasp 3 "metodo-e-exemplo") % (c2m232edosexatasa "metodo-e-exemplo") \sa{reset-S1}{ \sa {z} {(x^2y^3)} \sa {z_x} {(2xy^3)} \sa {z_y} {(3x^2y^2)} } \sa{reset-S2}{ \sa {z} {(x^2+xy^2)} \sa {z_x} {(2x+y^2)} \sa {z_y} {(2xy)} } \sa{(E5)}{ \left(\begin{array}{rcrcl} d\ga{z} &=& \ga{z_x}dx + \ga{z_y}dy &=& 0 \\ \ddx\ga{z} &=& \ga{z_x} + \ga{z_y}\frac{dy}{dx} &=& 0 \\ \ga{z} &=& C \\ \end{array} \right) } \sa{(E3)}{ \left(\begin{array}{rcrcl} \ga{z_x}dx + \ga{z_y}dy &=& 0 \\ \ga{z_x} + \ga{z_y}\frac{dy}{dx} &=& 0 \\ \ga{z} &=& C \\ \end{array} \right) } \sa{(E2)}{ \left(\begin{array}{rcrcl} \ga{z_x} + \ga{z_y}\frac{dy}{dx} &=& 0 \\ \ga{z} &=& C \\ \end{array} \right) } \sa{(S)}{ \left[\begin{array}{rcl} z &:=& \ga{z} \\ z_x &:=& \ga{z_x} \\ z_y &:=& \ga{z_y} \\ \end{array} \right] } % Local Variables: % coding: utf-8-unix % End: