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Maths coordinate geometry formulas.

The document discusses key concepts in coordinate geometry including: - The equation of a straight line y=mx+c where m is the gradient and c is the y-intercept. - How to find the gradient between two points and determine if lines are parallel or perpendicular. - How to find the midpoint and distance between two points. - How to find the equation of the perpendicular bisector of a line segment. - How to find the point of intersection between two lines by solving their equations simultaneously. - The equation of a straight line passing through a point with a given gradient. - The equation of a circle with center (a,b) and radius r.

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The equation of a straight line can be written as y = mx + c, where m is the gradient and c is the intercept with the vertical axis. The gradient of a line passing through the points ( x1 , y1 ) and ( x2 , y2 ) y − y1 is 2 . x2 − x1 Lines are parallel if they have the same gradient. Two lines are perpendicular if the product of their gradients is -1. The distance between the points with coordinates The midpoint of the line joining the points ( x1 , y1 ) and ( x2 , y2 ) ( x1 , y1 ) and ( x2 , y2 ) is ( x2 − x1 ) 2 + ( y2 − y1 ) . 2 Example: Find the equation of the perpendicular bisector of the line joining the points (3, 2) and (5, -6). Solution: The midpoint of the line joining (3, 2) and  3 + 5 2 + (−6)  , (5, -6) is  ÷, i.e. ( 4, −2 ) . 2  2  The gradient of the line joining these two points is: −6 − 2 −8 = = −4 . 5−3 2 The equation of the perpendicular bisector must therefore be −1 −4 = 1 4 . We need the equation of the line through (4, -2) with gradient ¼ . This is y − (−2) = 1 ( x − 4) 4 y + 2 = 1 x −1 4 y = 1 x−3 4 Coordinate Geometry  x + x y + y2  is  1 2 , 1 . 2 ÷  2  Example: Find the point of intersection of the lines: 2x + y = 3  and y = 3x – 1.  Solution: To find the point of intersection we need to solve the equations  and  simultaneously. We can substitute  into equation : 2x + (3x – 1) = 3 i.e. 5x – 1 = 3 i.e. x = 4/5 Substituting this into equation : y = 3(4/5) – 1 = 7/5. Therefore the lines intersect at the point (4/5, 7/5). The equation of the straight line with gradient m that passes through the point ( x1 , y1 ) is y − y1 = m( x − x1 ) . If the gradient of a line is m, then the gradient of a perpendicular line is − 1 . m The equation of a circle centre (a, b) with radius r is ( x − a )2 + ( y − b) 2 = r 2 . Example: Find the centre and the radius of the circle with equation x 2 + 2 x + y 2 − 6 x + 6 = 0 . Solution: We begin by writing x 2 + 2 x in completed square form: 2 2 2 x 2 + 2 x = ( x + 1) − 1 = ( x + 1) − 1 . We then write y 2 − 6 x in completed square form: y 2 − 6 x = ( y − 3) 2 − 32 = ( y − 3) 2 − 9 . So we can rewrite the equation of the circle as ( x + 1) 2 − 1 + ( y − 3) 2 − 9 + 6 = 0 ( x + 1) 2 + ( y − 3) 2 = 4 . i.e. This is a circle centre (-1, 3), radius 2.

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Maths coordinate geometry formulas.

  • 1.
    The equation ofa straight line can be written as y = mx + c, where m is the gradient and c is the intercept with the vertical axis. The gradient of a line passing through the points ( x1 , y1 ) and ( x2 , y2 ) y − y1 is 2 . x2 − x1 Lines are parallel if they have the same gradient. Two lines are perpendicular if the product of their gradients is -1. The distance between the points with coordinates The midpoint of the line joining the points ( x1 , y1 ) and ( x2 , y2 ) ( x1 , y1 ) and ( x2 , y2 ) is ( x2 − x1 ) 2 + ( y2 − y1 ) . 2 Example: Find the equation of the perpendicular bisector of the line joining the points (3, 2) and (5, -6). Solution: The midpoint of the line joining (3, 2) and  3 + 5 2 + (−6)  , (5, -6) is  ÷, i.e. ( 4, −2 ) . 2  2  The gradient of the line joining these two points is: −6 − 2 −8 = = −4 . 5−3 2 The equation of the perpendicular bisector must therefore be −1 −4 = 1 4 . We need the equation of the line through (4, -2) with gradient ¼ . This is y − (−2) = 1 ( x − 4) 4 y + 2 = 1 x −1 4 y = 1 x−3 4 Coordinate Geometry  x + x y + y2  is  1 2 , 1 . 2 ÷  2  Example: Find the point of intersection of the lines: 2x + y = 3  and y = 3x – 1.  Solution: To find the point of intersection we need to solve the equations  and  simultaneously. We can substitute  into equation : 2x + (3x – 1) = 3 i.e. 5x – 1 = 3 i.e. x = 4/5 Substituting this into equation : y = 3(4/5) – 1 = 7/5. Therefore the lines intersect at the point (4/5, 7/5). The equation of the straight line with gradient m that passes through the point ( x1 , y1 ) is y − y1 = m( x − x1 ) . If the gradient of a line is m, then the gradient of a perpendicular line is − 1 . m The equation of a circle centre (a, b) with radius r is ( x − a )2 + ( y − b) 2 = r 2 . Example: Find the centre and the radius of the circle with equation x 2 + 2 x + y 2 − 6 x + 6 = 0 . Solution: We begin by writing x 2 + 2 x in completed square form: 2 2 2 x 2 + 2 x = ( x + 1) − 1 = ( x + 1) − 1 . We then write y 2 − 6 x in completed square form: y 2 − 6 x = ( y − 3) 2 − 32 = ( y − 3) 2 − 9 . So we can rewrite the equation of the circle as ( x + 1) 2 − 1 + ( y − 3) 2 − 9 + 6 = 0 ( x + 1) 2 + ( y − 3) 2 = 4 . i.e. This is a circle centre (-1, 3), radius 2.