Answer to Question #157491 in Differential Geometry | Topology for Vanessa

The equation of the normal to the graph of the function "y = y(x)" at a point with abscissa "x_0" is the following:

"y-y(x_0)=-\\frac{1}{y'(x_0)}(x-x_0)"

In our case, "y=\\frac{c^2}{x}, \\ \\ x_0=ct,\\ y(x_0)=\\frac{c}{t}". It follows that "y'=-\\frac{c^2}{x^2}". Therefore, the equation of the normal at point "x_0=ct" is

"y-\\frac{c}{t}=-\\frac{1}{-\\frac{c^2}{c^2t^2}}(x-ct)" which is equivalent to

"y-\\frac{c}{t}=t^2(x-ct)" and to

"ty-c=t^3x-ct^4".

Finally, we have the equation of the normal in the following form:

"t^3x-ty=c(t^4-1)"