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4-2 Parabolas.

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Presentation on theme: "4-2 Parabolas."— Presentation transcript:

1 4-2 Parabolas

2 Warm up Write down the formula for equation of a circle.
Write the equation of the circle with center (3, 5) and radius 4 Write the equation of the circle with center (2, 2) and with a point on the circle P (5, 6)

3 Essential Question How is the distance formula connected with deriving equations for both vertical and horizontal parabolas?

4 Definition A parabola is defined as a set of points equidistant from a line (called the directrix) and a point (called the focus). The focus will always lie on the axis of symmetry, and the directrix will always be perpendicular to the axis of symmetry. This definition can be used to derive the equation for a horizontal parabola opening to the right with its vertex at the origin using the distance formula.

5 Explore: Deriving the Standard-Form Equation of a Parabola
The coordinates for the focus are given by Write down the expression for the distance from a point (x, y) to the coordinates of the focus:

6 The distance from a point to a line is measured by drawing a perpendicular line segment from the point to the line. Find the point where a horizontal line from (x,7) intersects the directrix (defined by the line x = -p for a parabola with its vertex on the origin).

7 Write down the expression for the distance from a point, (x,y) to the point from Step C.
Setting the two distances the same and simplifying gives.

8 Reflection the standard form for a horizontal parabola with a vertex at (h, k):

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