How do I find the perpendicular slope of a line?
The line’s slope is equal to the rise over its run. The rise is the distance from the line’s origin (usually the point where you started drawing the line) to the point at which the line crosses the horizontal line. The run is the distance from the line’s origin to the point where the line intersects the vertical line. Thus, the rise-over-run is the length of the line segment perpendicular to the line.
How do you
One way to find the perpendicular slope of a line is to use the Pythagorean Theorem. This rule states that the sum of the squares of the legs of a right triangle is equal to the square of the hypotenuse. The two legs of a right triangle are the x-coordinate of one end of the line segment and the y-coordinate of the other end. The hypotenuse is the value you're looking for. To find the perpendicular slope, subtract the square of
How do I find the perpendicular slope of a line on an ellipse?
The equation of an ellipse is given by the sum of the squares of the two focal points’ distances from the origin, divided by the sum of the two focal points’ distances from each other. Because the equation of an ellipse can be rendered in the form of a nice little right triangle, it is very easy to use the Pythagorean Theorem to find the slope of any line segment on the ellipse.
How to find the perpendicular slope of a line on a parabola?
The solution to the perpendicular slope of a line on a parabola is the negative reciprocal of the gradient of the parabola. If you have the equation for the parabola in standard form, you can use the negative reciprocal of the gradient to find the perpendicular slope of a line on the parabola. To find the gradient of the parabola, you can use the derivative of the parabola.
How to find the perpendicular slope of a line on a hyperbola?
A line on a hyperbola is an asymptote. There are two ways to find the perpendicular slope of an asymtote. One is to subtract the slope of the asymptote from the slope of the line. This works fine if the line and asymptote are drawn on the same graph. If not, you can use the distance between the line and the asymptote to find the perpendicular slope. Once you have this value, you can plug it