Question:

C. 53. To find the center-radius form, the radius and the coordinates of the center must be found. Find the coordinates of the c

C.
53. To find the center-radius form, the radius and the coordinates of the center must be found. Find the coordinates of the center using the midpoint formula. (The center of the circle
must be the midpoint of the diameter.)
Center = (-2,2) (Type an ordered pair. Simplify your answer.)
54. There are several ways to find the radius of the circle. One way is to find the distance between the center and the point (-5,8). Use the result from part 53 and the distance formula
to find the radius
r= 35 (Type an exact answer, using radicals as needed.)
55. Another way to find the radius is to repeat part 54, but use the point (1, - 4) rather than (-5,8). Do this to obtain the same answer found in part 54.
et (X1.91) = (1, - 4) and (x2,92) be the coordinates of the center. Substitute the correct values into the distance formula.
(x2 - x)2 + (92 - y2)2 = /(-2-1)2 + (2-(-4))2
(Type the terms of your expression in the same order as they appear in the original expression. Do not evaluate.)
-
56. There is yet another way to find the radius. Because the radius is half the diameter, it can be found by finding half the length of the diameter. Using the endpoints of the diameter
given in the problem, find the radius in this manner. The same answer found in part 54 should once again be obtained
Let (*1.71) = (-5,8) and (x2.72) = (1. – 4). Substitute the correct values into the distance formula.
V(x2 – x1)2 + (y2 - y1)
-4-8
2
2
(Type the terms of your expression in the same order as they appear in the original expression. Do not evaluate.)
(1+5)
57. Using the center found in part 53 and the radius found in parts 54-56, give the center-radius form of the equation of the circle
(Type an equation. Simplify your answer)

C. 53. To find the center-radius form, the radius and the coordinates of the center must be found. Find the coordinates of the center using the midpoint formula. (The center of the circle must be the midpoint of the diameter.) Center = (-2,2) (Type an ordered pair. Simplify your answer.) 54. There are several ways to find the radius of the circle. One way is to find the distance between the center and the point (-5,8). Use the result from part 53 and the distance formula to find the radius r= 35 (Type an exact answer, using radicals as needed.) 55. Another way to find the radius is to repeat part 54, but use the point (1, - 4) rather than (-5,8). Do this to obtain the same answer found in part 54. et (X1.91) = (1, - 4) and (x2,92) be the coordinates of the center. Substitute the correct values into the distance formula. (x2 - x)2 + (92 - y2)2 = /(-2-1)2 + (2-(-4))2 (Type the terms of your expression in the same order as they appear in the original expression. Do not evaluate.) - 56. There is yet another way to find the radius. Because the radius is half the diameter, it can be found by finding half the length of the diameter. Using the endpoints of the diameter given in the problem, find the radius in this manner. The same answer found in part 54 should once again be obtained Let (*1.71) = (-5,8) and (x2.72) = (1. – 4). Substitute the correct values into the distance formula. V(x2 – x1)2 + (y2 - y1) -4-8 2 2 (Type the terms of your expression in the same order as they appear in the original expression. Do not evaluate.) (1+5) 57. Using the center found in part 53 and the radius found in parts 54-56, give the center-radius form of the equation of the circle (Type an equation. Simplify your answer)

Answer

57
Centre is (-2,2)
& radius i r=355
so,
23
2
ie
equation of circle is:
x----
(x-(-2)} + (y-2)² =
(x + 2)² + (y-2) = (355)
(n + 2)² + (y-2) = 45
x+2
(
a
2
further, solning girers:
simplification
2
x + 4x +4 + 4 +4-4y=45
+
-37 =0
2
ine. x + y +40-44

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57 Centre is (-2,2) & radius i r=355 so, 23 2 ie equation of ci... Download the app for the rest