Asked by Becca
Find the coordinates of the center of the ellipse represented by 4x^2 + 9y^2 – 18y – 27 = 0.
For 2x^2 + xy + 2y^2 = 1, find , the angle of rotation about the origin, to the nearest degree.
Find the distance between points at (–1, 6) and (5, –2).
Identify the conic section represented by x^2 – y^2 + 12y + 18x = 42.
Find the coordinates of the points of intersection of the graphs of x^2 + y^2 = 5, xy = –2, and y = –3x + 1.
For 2x^2 + xy + 2y^2 = 1, find , the angle of rotation about the origin, to the nearest degree.
Find the distance between points at (–1, 6) and (5, –2).
Identify the conic section represented by x^2 – y^2 + 12y + 18x = 42.
Find the coordinates of the points of intersection of the graphs of x^2 + y^2 = 5, xy = –2, and y = –3x + 1.
Answers
Answered by
Steve
4x^2 + 9(y^2-2y+1) = 27+9
4x^2 + 9(y-1)^2 = 36
x^2/9 + (y-1)^2/4 = 1
so, the center is at ...
2x^2 + xy + 2y^2 = 1
cot2θ = (A-C)/B
so θ=
d^2 = (5+1)^2 + (-2-6)^2
d = ...
x^2 – y^2 + 12y + 18x = 42
(x^2+18x+81) - (y^2-12y+36) = 42+81-36
(x+9)^2 - (y-6)^2 = 87
so, it's a ...
solving the equations in pairs, we get
(-2,1),(-1,2),(-2/5,11/5),(1,-2),(2,-1)
4x^2 + 9(y-1)^2 = 36
x^2/9 + (y-1)^2/4 = 1
so, the center is at ...
2x^2 + xy + 2y^2 = 1
cot2θ = (A-C)/B
so θ=
d^2 = (5+1)^2 + (-2-6)^2
d = ...
x^2 – y^2 + 12y + 18x = 42
(x^2+18x+81) - (y^2-12y+36) = 42+81-36
(x+9)^2 - (y-6)^2 = 87
so, it's a ...
solving the equations in pairs, we get
(-2,1),(-1,2),(-2/5,11/5),(1,-2),(2,-1)
Answered by
Becca
(2/9, -1 2/4)
?
d=10
ellipse
?
?
d=10
ellipse
?
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