Hyperbolas Flashcards
Horizontal Case of a Hyperbola
Hyperbolas open left and right
Vertical Case of a Hyperbola
Hyperbolas open up and down
Asymptotes
Lines that act as boundaries for the hyperbolas
Transverse Axis
Like the major axis of an ellipse, the center, vertices, and foci lie on it
- the vertex is between the center and focus
- The Transverse Axis = 2a
Conjugate Axis
Like the minor axis of an ellipse, the co-vertices lie on it
-The Conjugate Axis = 2b
Standard Form of a Horizontal Ellipse at (0,0)
x^2/a^2 - y^2/b^2 = 1
Standard Form of a Vertical Ellipse at (0,0)
y^2/a^2 - x^2/b^2 = 1
Standard Form of a Horizontal Ellipse at (h,k)
(x-h)^2/a^2 - (y-k)^2/b^2 = 1
Standard Form of a Vertical Ellipse at (h,k)
(y-k)^2/a^2 - (x-h)^2/b^2 = 1
Vertices
Vertices lie on the Transverse Axis and are + or - a from the center
Foci
Foci lie on the Transverse Axis and are + or - c from the center
Slope of the Asymptotes for a Horizontal Hyperbola
m = + or - b/a
-Slope is counted from the center (either (0,0) or (h,k)
Slope of the Asymptotes for a Vertical Hyperbola
m = + or - a/b
-Slope is counted from the center (either (0,0) or (h,k)
Horizontal vs. Vertical?
There is no relationship between a^2 and b^2 (a^2 can be less than or equal to b^2), so look at the x^2 and y^2 for whether the Hyperbola is Horizontal or Vertical
- If x^2 is first, the Hyperbola is Horizontal (along the X-axis)
- If y^2 is first, the Hyperbola is Vertical (along the Y-axis)
Identifying a Hyperbola from its General Form Equation
- It has 2 squared terms (#x^2 and #y^2)
2. Its two squared numbers have opposite signs (One number is negative, one number is positive)
