INFLECTION POINTS
SLOPE
SECANT LINE
FUNCTION
QUOTIENT RULE
POWER RULE
CRITICAL POINTS
INSTANTANEOUS RATE OF CHANGE
CONCAVITY
RATE OF CHANGE
FIND THE DERIVATE
DERIVATIVE
CHAIN RULE
SOLVE FOR X
PRODUCT RULE
TANGENT LINE
DIFFERENTIATE
STEEPNESS
THE PROCESS OF CALCULATING THE DERIVATIVE OF A FUNCTION.
A LINE THAT TOUCHESA CURVE AT A SINGLE POINT,REPRESENTING THE DERIVATIVE OF THE FUNCTION AT THAT POINT.
A RULE FOR FINDING THE DERIVATIVE OF A PRODUCT OF TWO FUNCTIONS.
A RULE FOR FINDING THE DERIVATIVE OF A QUOTIENT OF TWO FUNCTIONS.
THE RATE OF CHANGE OF A FUNCTION AT AN EXACT POINT
A RULE FOR FINDING THE DERIVATIVE OF A POWER FUNCTION.
TO FIND THE VALUE(S) OF THE VARIABLE X THAT SATISFY A GIVEN EQUATION.
THE RATE AT WHICH A FUNCTION IS CHANGING AT A GIVEN POINT.
A RELATION BETWEEN A SET OF INPUTS AND A SET OF POSSIBLE OUTPUTS WHERE EACH INPUT IS RELATED TO EXACTLY ONE OUTPUT
POINTS ON A CURVE WHERE THE CONCAVITY CHANGES.
A RULE FOR FINDING THE DERIVATIVE OF A COMPOSITION OF TWO OR MORE FUNCTIONS.
THE STEEPNESS OF A LINE ON A GRAPH; EQUIVALENT TO THE DERIVATIVE OF A LINEAR FUNCTION.
THE SPEED AT WHICH ONE QUANTITY CHANGES WITH RESPECT TO ANOTHER.
POINTS ON A CURVE WHERE THE DERIVATIVE IS EITHER ZERO OR UNDEFINED.
TO FIND THE DERIVATIVE OF A FUNCTION.
THE DIRECTION IN WHICH A CURVE BENDS; CAN BE UPWARDS(CONCAVE UP) OR DOWNWARDS(CONCAVE DOWN).
THE DEGREE TO WHICH A CURVE DEVIATES FROM BEING FLAT;RELATED TO THE SLOPE OF THE CURVE.
A LINE THAT INTERSECTS A CURVE AT TWO POINTS.