Latest revision as of 13:42, 13 September 2021

When a first derivative is positive, the original function is increasing.
When a first derivative is negative, the original function is decreasing.
1. The derivative does not tell us if the function is positive or negative, only if increasing or decreasing.
When a second derivative is positive, the original function is concave up.
When a second derivative is negative, the original function is concave down.
When a first derivative hits zero from below the axis, the original function is at a(n) local minimum.
When a second derivative is zero, the original function is at a(n) inflection point.

@@ Line 1: / Line 1: @@
 #When a first derivative is positive, the original function is increasing.
 #When a first derivative is negative, the original function is decreasing.
-##The derivative dose not tell us if function is positive or negative, only if increasing or decreasing.
+##The derivative does not tell us if the function is positive or negative, only if increasing or decreasing.
 #When a second derivative is positive, the original function is concave up.
 #When a second derivative is negative, the original function is concave down.
 #When a first derivative hits zero from below the axis, the original function is at a(n) local minimum.
 #When a second derivative is zero, the original function is at a(n) inflection point.
-[[Screen Shot 2021-08-03 at 9.35.59 PM.png|thumb]]
+[[File:Screen Shot 2021-08-03 at 9.35.59 PM.png|thumb]]
+<noinclude>
 =test=
 ==test two==
+</noinclude>

Difference between revisions of "Graphing Functions and Their Derivatives"