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Conic Section or a Conic is a locus of point that moves in a plane so that its distance from a fixed point is in constant positive ratio to its distance from a fixed line.
Focus is the fixed point
Directrix is the fixed line
Eccentricity is the constant positive ratio usually represented by (e)
The conic section falls into three (3) classes, which varies in form and in certain properties. These classes are distinguished by the value of the eccentricity (e).
If e = 1, a conic section which is a parabola
If e < 1, a conic section which is an ellipse (as e⇾0, the
conic becomes a circle)
If e > 1, a conic section which is a hyperbola
THE PARABOLA (e = 1)
A parabola is the set of all points in a plane, which are equidistant from a fixed point and a fixed line of the plane. The fixed point called the focus (F) and the fixed line the directrix (D). The point midway between the focus and the directrix is called the vertex (V). The chord drawn through the focus and perpendicular to the axis of the parabola is called the latus rectum (LR).
Definition: A parabola is a locus of point that moves in a plane so that its distance from a fixed point is equal to its distance from a fixed line.
PROPERTIES OF A PARABOLA
1. Fixed line D is called the Directrix
2. Fixed point F is called the Focus.
3. The point on the parabola which is halfway from the focus
to the directrix is called the Vertex V of the parabola.
4. The axis of symmetry (axis of the parabola) is the line
passing through the focus and perpendicular to the
directrix.
5. A chord connecting the points of the parabola passing
through the focus and perpendicular to the axis of
symmetry is called the Latus Rectum LR.
Standard Form General Form
(y – k)2 = 4a (x – h)
y2 + Dx + Ey + F = 0
(y – k)2 = - 4a (x – h)
(x – h)2 = 4a (y – k)
x2 + Dx + Ey + F = 0
(x – h)2 = - 4a (y – k)
Examples
1. Draw the graph of the parabola y2 + 8x – 6y + 25 = 0
2. Express x2 – 12x + 16y – 60 = 0 to standard form and construct the parabola.
3. Determine the equation of the parabola in the standard form, which satisfies the given conditions.
a. V (3, 2) and F (5, 2)
b. V (2, 3) and axis parallel to y axis and passing through (4, 5)
c. V (2, 1), Latus rectum at (-1, -5) & (-1, 7)
d. V (2, -3) and directrix is y = -7
4. Find the equation of parabola with vertex at (-1, -2), axis is vertical and passes through (3, 6).