Powered by
© March 2007
Lorentz JÄNTSCHI
X's
Y's
Current implemented models
1.46;1.69;1.97;2.28;2.11;1.95;1.8;1.58;1.86;1.91;1.97;2.02;1.61;1.16;1;0.72;0.92;1;1.02;1.14;1.28;1.44;1.27;1.51;1.58;1.57;1.44;1.33;1.22;1.42;1.34;2.91
0.81;0.82;0.82;0.83;1;1;0.85;0.87;0.96;0.96;0.95;0.95;0.82;0.71;0.62;0.46;0.61;0.65;0.63;0.68;0.74;0.8;0.73;0.77;0.79;0.9;0.85;0.8;0.75;0.79;0.75;0.93
linear, Y=aX, from M(Y)=aM(X)
linear, Y=aX, for [y-mx]^2=min.
linear, Y=aX, for [x-my]^2=min.
linear, Y=aX, from M(Y^2)/M(X^2)=a^2
linear, Y=aX+b, for [ax+by+1]^2=min.
linear, Y=aX+b, for [y-mx-n]^2=min.
linear, Y=aX+b, for [x-my-n]^2=min.
linear, Y=aX+b, from M(Y^2)/M(X^2)=a^2 & M(Y)=aM(X)+b
hyperbolic, (X+a)(Y+b)=c, for [(x+a)(y+b)]^2=min
hyperbolic, Y=aX^-1+b, for [x(y+b)]^2=min
hyperbolic, Y^-1=aX^-1+b, for [y(x+a)]^2=min
show data
One more to be included...
Powered by
