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Enter the x and y coordinates for the point of intersection.
If you find that the lines are parallel or they will intersect everywhere (same line), leave the coordinates blank and select the appropriate choice. Find the point of intersections using the Equal Values Method. Intersect everywhere (same line) No solution (parallel lines) y = 3x + 1 y = 2x + 8 ( , ) Intersect everywhere (same line) No solution (parallel lines) y = x + 13 y = 3x + 1 ( , ) Intersect everywhere (same line) No solution (parallel lines) y = 5x - 1 y = x + 11 ( , ) Intersect everywhere (same line) No solution (parallel lines) y = -3x + 7 y = 2x - 3 ( , ) Intersect everywhere (same line) No solution (parallel lines) y = -x + 1 y = 2x + 16 ( , ) Intersect everywhere (same line) No solution (parallel lines) y = 3x + 1 y = 3x + 8 ( , ) Intersect everywhere (same line) No solution (parallel lines) y = -4x - 3 y = -2x + 11 ( , ) Intersect everywhere (same line) No solution (parallel lines) y = 7x + 22 y = x + 22 ( , ) Intersect everywhere (same line) No solution (parallel lines) y = 10x + 8 y = -2x - 100 ( , ) Intersect everywhere (same line) No solution (parallel lines) y = -x + 3 y = -x + 3 ( , ) Intersect everywhere (same line) No solution (parallel lines) y = -3x + 5 y = 2x + 35 ( , ) Intersect everywhere (same line) No solution (parallel lines) y = 25x + 120 y = 35x + 20 ( , ) y = -8.50x + 1000 y = -7.00x + 910 Intersect everywhere (same line) No solution (parallel lines) ( , ) Intersect everywhere (same line) No solution (parallel lines) y = 0.5x + 12 y = 0.5x + 31 ( , ) Intersect everywhere (same line) No solution (parallel lines) y = x + 3 y = -x - 5 ( , ) |