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10.2 The circle and the ellipse. Matt Kwak. Circle. Set of all points in a plane that are at a fixed distance from a fixed point(center) in the plane. With the center ( a, b ) and radius r, standard equation of a circle is (x-a) 2 + (y-b) 2 = r 2. Example .
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10.2 The circle and the ellipse Matt Kwak
Circle • Set of all points in a plane that are at a fixed distance from a fixed point(center) in the plane. • With the center (a,b) and radius r, standard equation of a circle is (x-a)2 + (y-b)2 = r 2
Example • Find the center and the radius of an equation and graph it x2 + y2 -16x + 14y + 32 = 0
x2+ y2 -16x + 14y + 32 = 0 x2-16x + y2 + 14y = -32 x2-16x +64 + y2+ 14y + 49 = -32 +64 +49 (x-8)2 + (y+7)2 = 9 2 So the center is (8,-7) and the radius is 9. But to graph it we need to make it something looks like y= ~~~
(x-8)2 + (y+7)2 = 81 (y+7)2 = 81- (x-8)2 y+7 = ±√(81- (x-8)2 ) y = -7 ±√(81- (x-8)2 )
Ellipse It is the set of all points in a plane. The Sum of whose distances from two fixed points( the foci) is constant. The center is the midpoint of the segment between the foci.
Major Axis Horizontal graph and Standard Equation Major Axis Vertical graph and Standard Equation C 2 = a 2 – b 2
Example • Find the standard equation of the ellipse with vertices (-5, 0) and (5,0) and foci (-3,0) and (3,0) then graph it.
Standard Equation: x2/a2 + y2/b2 = 1 C 2 = a 2 – b 2 3 2 = 5 2 – b 2 b 2 = 16 Standard Equation: x2/25 + y2/16 = 1 y= ±√(400 – 16x2/25)
Ellipse with the center Axis Horizontal: (x-h)2/a2 + (y-k)2/b2 = 1 Axis Vertical: (x-h)2/b2+ (y-k)2/a2= 1
Example • For the ellipse equation 4x2 + y2 + 24x -2y + 21 =0, find the center and then graph it.
4x2 + y2 + 24x -2y + 21 =0 4x2 + 24x + y2 -2y =-21 4(x2 + 6x + 9)+ (y2 -2y + 1) =-21 +4 × 9 +1 4(x +3)2 + (y-1)2 = 16 1/16 × [4(x +3)2 + (y-1)2]= 16 × 1/16 (x + 3)2/4 + (y-1)2/16 = 1 [x-(-3)]2/22 + (y-1)2/42 = 1 Center : ( -3, 1) y= 1± 2√4-(x+3)2