Доклад: Графика в системе Maple V
confocalellip
x = ((a~2-u)*{a'2-v)*(a"2-w)/{a'2-b''2)/(a-2-c-2)Y(l/2) у = ((b»2-u)*(b~2-v)*(b"2-w)/(b"2-a»2)/(b»2-c«2))'(l/2) z = ((c''2-u)*(^2-v)*(c''2-w)/(c'2-a'2)/(c^2-\)''2))~(l/2)
confocalparab
x = ((a'2-u)*(si'2-v)*(a'2-w)/{V2-a'2))'(l/2) у = ((b»2-u)*(b»2-v)*(b-2-w)/(b-2-a-2) Г(1/2) z = (a"2+b"2-u-v-w)/2
conical
x = u*v*w/(a*b) у = u/b*((v"2 - h~2)*(b~2-w''2)/(a~2-V2)Y(l/2) z = u/a*((a'2 - v'2)*(a'2 - w~2)/(a-2-b»2))"(l/2)
cylindrical
x = u*cos(y) у = u*sin(y) z = w
ellcylindrical
x = a*cosh(u)*cos(v) у = a*sinh(u)*sin(v) z = w
ellipsoidal
x = u*v*w/a/b у = ((u'^-b^Mv^-b^^b^-w^Aa^-b^^l^/b z = ((u-2-a»2)*(a•2-v«2)*(a»2-w"2)/(a•2-b'2))»(l/2)/a
hypercylindrical
x= ((u"2+v"2Y(l/2)+u)'(l/2) y^u^+v^ni^-iO-O/^) z=w
invcasscylindrical
x = a*2-(l/2)/2*((exp(2*u)+2*exp(u)*cos(v)+l)-(l/2) +
exp(u)*cos(v)+l)'(l/2)/(exp(2*u)+2*exp(u)*cos(v)+l)'(l/2) у = a*2-(l/2)/2*((exp(2*u)+2*exp(u)*cos(v)+l)-(l/2) -
exp(u)*cos(v)-l)»(l/2)/(exp(2*u)+2*exp(u)*cos(v)+l)«(l/2) z = w
invellcylindrical
x = a*cosh(u)*cos(v)/(cosh(ur2-sin(v)"2) у = a*sinh(u)*sin(v)/(cosh(u)"2-sin(v)~2) z = w
invoblspheroidal
x = a*cosh(u)*sin(v)*cos(w)/(cosh(u)"2-cos(v)«2) у = a*cosh(u)*sin(v)*sin(w)/(cosh(u)'2-cos(v)"2) z = a*sinh(u)*cos(v)/(cosh(u)«2-cos(v)'2)
invprospheroidal
x = a*sinh(u)*sin(v)*cos(w)/(cosh(u)'2-sin(v)"2) у = a*sinh(u)*sin(v)*sin(w)/(cosh(u)«2-sin(v)«2) z = a*cosh(Ll)*cos(v)/(cosh(u)»2-s^n(v)•2)
logcoshcylindrical
x = !i/Pi*\n(cosh(uY2-sm(vY2} у = 2*a/Pi*arctan(tanh(u)*tan(v)) z = w
maxwellcylindrical
x = a/Pi*(u+l+exp(u)*cos(v)) у = a/Pi*(v+exp(u)*sin(v)) z = w
oblatespheroidal