By working out the values of x and y in the given equations by elimination and substitution
The solution to a system is an ordered pair (x,y) where the two lines intersect.
1st equation: 3x+2y = 2 2nd equation: x-3y = -14 Multiply all terms in the 2nd equation by 3 and subtract it from the 1st equation:- So: 11y = 44 or y = 4 By substitution point of intersection is at: (-2, 4)
Perpendicular Lines form right angles at their point of intersection
The intersection of two lines can be any of the following:NothingA single pointAn entire line (that means the two lines are NOT distinct)
If no pair of lines is parallel and if each pairwise intersection is distinct, there will be 10 points of intersection.
The solution to a system is an ordered pair (x,y) where the two lines intersect.
The intersection of the individual graphs. In the simplest case, the graph for each equation consists of a line (or some curve); the intersection is the points where the lines or curves meet.
Orgin is the intersection of horizontal and vertical number lines.
1st equation: 3x+2y = 2 2nd equation: x-3y = -14 Multiply all terms in the 2nd equation by 3 and subtract it from the 1st equation:- So: 11y = 44 or y = 4 By substitution point of intersection is at: (-2, 4)
Perpendicular Lines form right angles at their point of intersection
The point of intersection.
The intersection of two lines can be any of the following:NothingA single pointAn entire line (that means the two lines are NOT distinct)
If the lines are identical, then the whole lines. If not they can either not meet at all or at a single point: the point of intersection.
Intersection or perpendicular lines.
They are lines with a common point of intersection. <3
Perpendicular lines
They are perpendicular lines