| A | B |
|---|
| DOMAIN | THE SET OF ALL X - COORDINATES OF A RELATION |
| RANGE | THE SET OF ALL Y - COORDINATES OF A RELATION |
| MAXIMUM OF A FUNCTION | THE POINT WHERE THE FUNCTION ATTAINS ITS LARGEST VALUE . IN OTHER WORDS , THE LARGEST Y - VALUE PLOTTED ON A GRAPH |
| MINIMUM OF A FUNCTION | THE POINT WHERE THE FUNCTION ATTAINS ITS SMALLEST VALUE , OR THE SMALLEST Y - VALUE PLOTTED ON A GRAPH |
| VERTEX | THE HIGHEST POINT OF SOMETHING |
| PARABOLA | A KIND OF CURVE ; ONE OF THE CONIC SECTIONS FORMED BY THE INTERSECTION OF THE SURFACE OF A CONE WITH A PLANE PARALLEL TO ONE OF ITS SIDES . IT IS A CURVE , ANY POINT OF WHICH IS EQUALLY DISTANT FROM A FIXED POINT |
| SLOPE INTERCEPT FORM OF A LINEAR EQUATION | Y = MX + B , WHERE X IS THE INDEPENDENT VARIABLE , Y IS THE DEPENDENT VARIABLE , M IS THE SLOPE , AND B IS THE Y - INTERCEPT |
| LINEAR EQUATION | AN EQUATION INVOLVING TWO VARIABLE AND WHEN GRAPHED IS A STRAIGHT LINE |
| PARALLEL LINES ( LINEAR EQUATIONS ) | THESE HAVE THE SAME SLOPES BUT DIFFERENT Y - INTERCEPTS |
| PERPENDICULAR LINES ( LINEAR EQUATIONS ) | THESE HAVE OPPOSITE ( SIGNS ) , RECIPROCAL ( FRACTION TURNS OVER ) SLOPES |
| COINCIDENTAL LINES ( LINEAR EQUATIONS ) | LINES THAT OVERLAP WHICH MEANS THAT THEY HAVE INDENTICAL SLOPES AND IDENTICAL Y - INTERCEPTS |
| INTERSECTING LINES BUT NOT PERPENDICULAR ( LINEAR EQUATIONS ) | THESE LINES HAVE DIFFERENT SLOPES BUT CAN HAVE DIFFERENT OR THE SAME Y - INTERCEPT |
| SLOPE | THE TANGENT OF THE ANGLE BETWEEN A GIVEN STRAIGHT LINE AND THE X - AXIS |
