tag:blogger.com,1999:blog-1000693476051168456.post7990354756268826682..comments2019-06-03T03:59:46.148-05:00Comments on JabbaMatheez 40S (Winter 2008): BOB: Circular FunctionsDarren Kuropatwahttp://www.blogger.com/profile/08462283847470560887noreply@blogger.comBlogger1125tag:blogger.com,1999:blog-1000693476051168456.post-59871039354188625672008-02-24T22:03:00.000-06:002008-02-24T22:03:00.000-06:00Roxanne,If you want to see the graph of the tangen...Roxanne,<BR/><BR/>If you want to see the graph of the tangent function, you can go right ahead and use fooplot.com. You will see that the shape of the tangent function is somewhat different from cosine and sine. <BR/><BR/>The graph of the tangent function has some distinct properties.It has a period of pi unlike both cosine and sine which has a period of 2pi. <BR/>Second, it has a y-intercept of zero. (There are so much more to say about this function but i wont go into them, because i don't want to spoil the fun).<BR/><BR/>Graphing the tangent function follows the same rule as graphing both cosine and sine functions. The general equation for the tangent function is f(x) = a*tan(bx+c)+d. You can see that it uses the same parameters.All the parameters work the same way as the one in the sine and cosine equations. It also follows the same algorithm DABC (but i prefer using BCDA). <BR/><BR/>I hope this helps you clarify things.<BR/><BR/>-m@rkm@rkhttps://www.blogger.com/profile/00509544958003356512noreply@blogger.com