Solved: Hyperbola transformed to a canonical form

ValeryOchkov · ‎Oct 04, 2022

I bring the curve of the second order (hyperbola - red curve) to the canonical form. Why don't my starting blue points end up on a hyperbola transformed to a canonical form. Help me please!

Mathcad 15 in attach.

Werner_E · ‎Oct 04, 2022

Instead of changing the value of the angle or using (pi/2-phi) instead of phi you may also just exchange sin and cos in your two rotation equations.

I also wondered why you used the "root" function to calculate phi instead of a direct calculation

This time the sheet is attached 😉

View solution in original post

Werner_E · ‎Oct 04, 2022

1) You used X instead of X1 in yor second plot

2) The center of the original hyperbola is not in the origin, so you have to translate X and Y by x.o and y0 before you rotate them

3) You angle phi is wrong. Here you see the original hyperbola (matrix H) translated by (x.0; y.0) and rotated by your angle phi

The correct angle to rotate is not 42.659° but rather 90° - 42.659° = 47.341°.

Using all these corrections we get

ValeryOchkov · ‎Oct 04, 2022

Thanks, Werner!

Send please the sheet!

Werner_E · ‎Oct 04, 2022

@ValeryOchkov wrote:

Thanks, Werner!

Send please the sheet!

Sorry, I did not save and keep the modified sheet.

But only very few changes are necessary and they can easily be taken from the pictures, I think.

Simply add the angle to 90°,
add the displacement at the calculation of X1 and Y1 as shown
and use X1 instead of X in the plot.

That is all that is necessary.

Werner_E · ‎Oct 04, 2022

Instead of changing the value of the angle or using (pi/2-phi) instead of phi you may also just exchange sin and cos in your two rotation equations.

I also wondered why you used the "root" function to calculate phi instead of a direct calculation

This time the sheet is attached 😉

Werner_E · ‎Oct 04, 2022

Some additional remarks:

You could get the coefficients for your implicit equation more efficient by using the symbolic "coeff" command so you can avoid copy&paste:

And while I think that implicitplot2D() is a most valuable tool, you don't need it to plot hyperbolas as you could use a parameter equation

ValeryOchkov · ‎Oct 04, 2022

Dummy is x^3.

Werner_E · ‎Oct 05, 2022

@ValeryOchkov wrote:

Dummy is x^3.

No, "dummy" is the coefficient of x^5 which would correspond to (non-existent) x^2*y in the original expression.

ValeryOchkov · ‎Oct 04, 2022

Yes! With dynamic: sh(t), ch(t)...

ValeryOchkov · ‎Oct 06, 2022

ValeryOchkov · ‎Oct 05, 2022

ValeryOchkov · ‎Oct 04, 2022

Origin seven (five) points (the Asteroid position in time), our blue planet, two branches of hyperbola, two focus, two asymptotes, two directrices and... new method of hyperbola transforming to a canonical form. Or it is one old method?

Werner_E · ‎Oct 04, 2022

Sorry, I don't understand your question.

ValeryOchkov · ‎Oct 04, 2022

Is it one new method of transforming one curve of 2-d order in canonical form. With using one Math package?

Werner_E · ‎Oct 04, 2022

I guess its not really new but rather a bit different from the usual way of using matrices, eigenvalues, etc. But the basic math is quite similar, I suppose.

ValeryOchkov · ‎Oct 04, 2022

Many students are horrified by words eigenvalues, etc. And so - "not aesthetically pleasing, but cheap, reliable and practical" using the numerical solution of systems of equations.

SMath

(67) Лёлик, но это же не эстетично! Зато дёшего, надёжно и практично! - YouTube

Werner_E · ‎Oct 04, 2022

@ValeryOchkov wrote:

Many students are horrified by words eigenvalues, etc. And so - "not aesthetically pleasing, but cheap, reliable and practical" using the numerical solution of systems of equations.

In other words .. KISS 😄

ValeryOchkov · ‎Oct 06, 2022

One article about it (MathCAD)

Методика приведения уравнений кривых и поверхностей второго порядка к каноническому виду с применением среды MathCAD (e-koncept.ru)