def UNVooMsXxHa(): pspict, fig = SinglePicture("UNVooMsXxHa") pspict.dilatation_X(1) pspict.dilatation_Y(1) x = var('x') f = phyFunction(cosh(x)).graph(-10, 10) g = phyFunction(sinh(x)).graph(-10, 10) f.cut_y(-5, 5) g.cut_y(-5, 5) f.put_mark(0.2, text="\( y=cosh(x)\)", pspict=pspict, position="E", mark_point=f.I) g.put_mark(0.2, text="\( y=sinh(x)\)", pspict=pspict, position="E", mark_point=g.I) pspict.DrawGraphs(f, g) pspict.DrawDefaultGrid() pspict.DrawDefaultAxes() fig.no_figure() fig.conclude() fig.write_the_file()
def SYNKooZBuEWsWw(): pspict, fig = SinglePicture("SYNKooZBuEWsWw") pspict.dilatation_X(2) pspict.dilatation_Y(0.5) x = var('x') mx = -2.5 Mx = 2.5 f = phyFunction(sinh(x)).graph(mx, Mx) g = phyFunction(cosh(x)).graph(mx, Mx) f.parameters.color = "red" pspict.DrawGraphs(f, g) pspict.DrawDefaultAxes() fig.conclude() fig.write_the_file()
def AxesSecond(): pspict, fig = SinglePicture("AxesSecond") for i in range(-10, 10): x = float(i) / 5 P = Point(2 * x, sinh(x)) pspict.DrawGraphs(P) pspict.axes.no_graduation() pspict.axes.single_axeX.put_mark(0.3, angle=-45, text="\( x\)", pspict=pspict) pspict.axes.single_axeY.put_mark(0.3, angle=0, text="\( y=\sinh(x)\)", pspict=pspict) pspict.DrawDefaultAxes() pspict.comment = "The marks on the axes : \( x\) and \( y=\sinh(x)\)." fig.no_figure() fig.conclude() fig.write_the_file()
def _sage_(self): import sage.all as sage return sage.sinh(self.args[0]._sage_())
def _sage_(self): import sage.all as sage return sage.sinh(self.args[0]._sage_())