Circle Geometry Introduction KUS objectives BAT Find midpoints
Circle Geometry Introduction • KUS objectives BAT Find midpoints and distances BAT Solve problems with circle geometry using midpoints and distances Starter:
Notes AB is a diameter of a circle, where A and B are the coordinates (-3, 8) and (5, 4) respectively. Find the coordinates of the centre of the circle. (-3, 8) A (1, 6) (5, 4) B The centre of the circle is at the midpoint of its diameter…
Notes Reminder: finding lengths PQ is a line. Given that P is (8, -5), and Q is (-4, 1) find the length of PQ (-4, 1) Q What can we use to find distances? P (8, -5)
WB 30 ab The points (3, 4) and B (-1, 6) are the end points of a diameter of a circle a) Find the coordinates of the centre of the circle b) Find the radius of the circle
WB 30 cd PQ is a diameter of a circle, centre (2, -2). Given that P is (8, -5), c) find the coordinates of Q. d) Find the radius of the circle Write the unknown coordinate in terms of x and y, and fill in the formula for the mid-point as before… (-4, 1) (x, y) Set the x-part equal to 2 and the y-part equal to -2… Q (2, -2) (8, -5) P
WB 30 ef The points A (4 a, a) and B (-3 a, 2 a) are the end points of a diameter of a circle. e) Find the coordinates of the centre of the circle f) Find the radius of the circle y (x 2, y 2) (y 2 -y 1) (x 1, y 1) (x 2 -x 1) x
WB 30 gh PQ is the diameter of a circle, where P and Q are (-1, 3) and (6, -3) respectively. g) Find the centre of the circle h) Find the radius of the circle
WB 31 The line AB is the diameter of the circle, where A and B are (-3, 21) and (7, -3) respectively. The point C (14, 4) lies on the circumference of the circle. Find the values of AB 2, AC 2 and BC 2 and hence show that angle ACB is 90° A (-3, 21) (14, 4) C B (7, -3) Since Pythagoras’ Theorem works, ACB must be right-angled!
WB 32 The line AB is the diameter of the circle with centre C, where A and B are (-1, 4) and (5, 2) respectively. The line l passes through C and is perpendicular to AB. Find the equation of l. a) Find the gradient of the line AB b) Then work out the gradient perpendicular to that c) We also need to find the co-ordinates of the centre d) We can then find the equation of l l (-1, 4) A C (5, 2) B
WB 33 The line PQ is the Chord of the circle centre (-3, 5), where P and Q are (5, 4) and (1, 12) respectively. The line l is perpendicular to PQ and bisects it. Show that it passes through the centre of the circle. a) Find the midpoint of PQ b) Find the gradient of PQ, and then the perpendicular c) We can then find the equation of line l and substitute (-3, 5) into it (1, 12) Q C (-3, 5) l P (5, 4)
WB 34 The lines AB and CD are chords of a circle. The line y = 3 x – 11 is the perpendicular bisector of AB. The line y = -x – 1 is the perpendicular bisector of CD. Find the coordinates of the circle’s centre. THE PERPENDICULAR BISECTOR OF A CHORD GOES THROUGH THE CENTRE! So: Set the bisectors equal to each other and solve the equation for x and y. y = 3 x - 11 D C A B y = -x - 1
KUS objectives BAT Find midpoints and distances BAT Solve problems with circle geometry using midpoints and distances self-assess One thing learned is – One thing to improve is –
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