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INTRODUCTION Circle

 

A circle is the set of all points equidistant from a given point. The point from which all the points on a circle are equidistant is called the center of the circle, and the distance from that point to the circle is called the radius of the circle. A circle is named with a single letter, its center

 

Ellipse

 

An ellipse, informally, is an oval or a "squished" circle. In "primitive" geometrical terms, an ellipse is the figure you can draw in the sand by the following process: Push two sticks into the sand. Take a piece of string and form a loop that is big enough to go around the two sticks and still have some slack. Take a third stick, hook it inside the string loop, pull the loop taut by pulling the stick away from the first two sticks, and drag that third stick through the sand at the furthest distance the loop will allow. The resulting shape drawn in the sand is an ellipse.

INTRODUCTIONParabola

  In algebra, dealing with parabolas usually means graphing quadratics or finding the max/min points (that is, the vertices) of parabolas for quadratic word problems. In the context of conics, however, there are some additional considerations.

To form a parabola according to ancient Greek definitions, you would start with a line and a point off to one side. The line is called the "directrix"; the point is called the "focus". The parabola is the curve formed from all the points (x, y) that are equidistant from the directrix and the focus. The line perpendicular to the directrix and passing through the focus (that is, the line that splits the parabola up the middle) is called the "axis of symmetry". The point on this axis, which is exactly midway between the focus and the directrix, is the "vertex"; the vertex is the point where the parabola changes direction.

 

INTRODUCTION

Hyperbola

 

 

hyperbolas don't come up much — at least not that I've noticed — in other math classes, but if you're covering conics, you'll need to know their basics. An hyperbola looks sort of like two mirrored parabolas, with the two "halves" being called "branches". Like an ellipse, an hyperbola has two foci and two vertices; unlike an ellipse, the foci in an hyperbola are further from the hyperbola's center than are.

Conic Closed or Open Curve

The definition Foci and

center

Equation

Circle Closed

The figure formed by the group of points that are an equal distance from a point, or center

Foci in the

circle is equal the

center of the

circle

A =(3.14)r^2

C =2(3.14)r

Parabola Open A plane curve formed by the intersection of a right circular cone and a plane parallel to an element of the cone or by the locus of points equidistant from a fixed line and a fixed point not on the line

y= a(x-h)2+k

Ellipse Closed is a plane curve that results from the intersection of a cone by a plane in a way that produces a closed curve. Circles are special cases of ellipses

Hyperbola Open In mathematics a hyperbola is a type of smooth curve, lying in a plane, defined by its geometric properties or by equations for which it is the solution set. A hyperbola has two pieces, called connected components or branches, that are mirror images of each other and resemble two infinite bows.

TASK 3 Q1

Points

y=ax^2+bx+c  3=a(0^2)+b(0)+c3=c 7=a(-2^2)+b(-2)+c7=4a-2b+c 4=a(1^2)+b(1)+c4=a+b+c 

7=4a-2b+34a-2b=4b=(4-4a)/2b=2-2a 4=a+(2-2a)+34=-a+5a=1 b=2-2(1)b=0 Equation  y=x^2+3

TASK 3 Q2

X+2y=2

2Y=(2-x)

 

X^2+y^2=25

2x^2+(2-x)^2=50

3x^2-4x-46=0

 

x1=4.639

x2=-3.305

TASK 3 Q2

TASK 4 Q1

TASK 4 Q2

Focus ( h , k + 1/4a )

 

K+1/4a = 0

 

20+1/4a = 0

 

1/4a = -20

 

1 = -80a a = -1/80 y = a (x-h)2 + k y = -1/80(x-0)2+20 y = -1/80 x2

+20

Parabola

Ellipse Hyperbola

DONE BY

Mohamed Khaled Alnuaimi

Salem Salah

Ahmid Shaheen

Mohammed Ibrahim

Abdullah Mohammed Alshamsi

12-5