What does the secant value represent?

In this image, notice that as $\theta$ grows from $0$ to a right angle, the segment labeled $\sec\theta$ grows from $1$ to $+\infty$, and if $\theta$ were to go from $0$ down to minus a right angle, $\sec\theta$ would also go from $1$ up to $+\infty$.

On the other hand $\tan\theta$ would go from $0$ (not $1$) to $+\infty$ in one case, and from $0$ down to $-\infty$ in the other case.

Notice that the tangent is the length of a segment that is tangent (touching but not crossing) to the circle and the secant is the length of a segment that is secant to (cutting across) the circle. The words come from the Latin words tangere and secare, meaning to touch and to cut.

(The second image treats the three "co-" functions. I drew these with xfig several years ago and uploaded them to Wikipedia, where they are seen in this article.)

Some trigonometric functions

Here's an image treating the three "co-" functions


The numeric values of the different trig functions are the lengths of the line segments in the diagram below, if the circle has radius $1$. This helped me a lot when trying to visualize what the numeric value of each trig function meant.

Relationship between trig functions

(Picture taken from Wikipedia.)

For Example, $\sec(\theta) = 2$ means that:

If one draws a tangent line from the point on the unit circle at $\theta$, the distance from the center of the unit circle to the intersection of the tangent line and the horizontal is $2$ units.