Solving Orthogonal Trajectories of a Family of Curves

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SUMMARY

The discussion focuses on determining the orthogonal trajectories of the family of curves defined by the equation y = √(2ln|x| + C). The user initially derived the derivative incorrectly but received guidance on simplifying the process. The correct approach involves squaring the original equation to obtain y² = 2ln|x| + C, differentiating with respect to y, and then using the negative reciprocal of the derivative to find the orthogonal trajectories. The final expression for the derivative is y' = 1/(xy).

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Maxwell
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Here is the problem:

Determine the orthogonal trajectories of the given family of curves.

[tex]y = \sqrt{2\ln{|x|}+C}[/tex]

This is what I've done so far:

[tex]y = (2\ln{|x|}+C)^\frac{-1}{2}[/tex]

[tex]y' = -1/2(2\ln{|x|+C)(2/x)[/tex]

Now I understand to find the orthogonal lines I need to divide -1 by whatever I get, the problem is, I can't simplify this derivative.

I've messed around with it a bit, and I have this:

[tex]-(2\ln{|x|}+C)/x[/tex]

How else can I simplify this?

Thanks.
 
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First, your derivative is incorrect. Your final result may be written as

[tex]y' = \frac {1}{xy}[/tex]

Does that help?
 
Last edited:
Maxwell said:
Here is the problem:

Determine the orthogonal trajectories of the given family of curves.

[tex]y = \sqrt{2\ln{|x|}+C}[/tex]

This is what I've done so far:

[tex]y = (2\ln{|x|}+C)^\frac{-1}{2}[/tex]

Why is the power negative?

There is an easier way. Just square the original equation, and differentiate with respect to y.

[tex]y^2=2\ln{|x|}+C[/tex]

[tex]2yy'=\frac{2}{x}[/tex].
...
express y', take the negative reciprocal and you get the differential equation for the trajectories. Solve, it is easy.

ehild
 

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