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Conic Section

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Roqui Gonzaga
Roqui Gonzaga

MS Report, When we talked about the conic section it involves a double-napped cone and a plane. If a plane intersects a double right circular cone, we get two-dimensional curves of different types. These curves are what we called the conic section.

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CONIC SECTIONSPREPARED BY: ROQUI MABUGAY GONZAGA
When a straight line intersect a vertical line at the fixed point and rotate about the fixed point. The surface obtained is called a double right circular cone.
A double right circular cone consist of two cones joined at the fixed point called the vertex. A line that rotates about the vertex is called the generator. The line that remain fixed is called the axis. The right circular cone has a circular base and its axis is always perpendicular to its base. Vertex Generator Lower nappe Directrix Upper nappe Axis The Perimeter of its base is what we called the directrix. And the Lateral surface of the cone is called a nappe. A double right circular cone has two nappe, the cone above the vertex is the upper nappe and below the vertex is the lower nappe.
What is Conics? What is Conic Section?
What is Conic Section? οƒΌ two-dimensional figure created by the intersection of a plane and a right circular cone. οƒΌ If a plane intersects a right circular cone, we get two dimensional curves of different types. This curves is called the conic sections.
What is Conics? οƒΌ two-dimensional figure created by the intersection of a plane and a right circular cone. There are many types of curve produced when a plane slices through a cone.  Parabola  Circle  Ellipse  Hyperbola
Types of Conics Section 1. Circle οƒΌ Is made from a plane intersecting a cone parallel to its base. A circle is the locus of points that are equidistant from a fixed point (the center).
Types of Conics Section 1. Circle οƒΌ Let C be a given point. The set of all points P having the same distance from C is called a circle. The point C is called the center of the circle and the common distance is its radius. Q The circle has a center, C(0, 0) and radius r>0. A point P(x, y) is on the circle if and only if 𝑃𝐢 = π‘Ÿ π‘†π‘‘π‘Žπ‘›π‘‘π‘Žπ‘Ÿπ‘‘ πΈπ‘žπ‘’π‘Žπ‘‘π‘–π‘œπ‘› π‘₯2 + 𝑦2 = π‘Ÿ2 , r > 0 c P(x,y)
Types of Conics Section 1. Circle οƒΌ Let C be a given point. The set of all points P having the same distance from C is called a circle. The point C is called the center of the circle and the common distance is its radius. The circle has a center, C(h, k) and radius r>0. A point P(x, y) is on the circle if and only if 𝑃𝐢 = π‘Ÿ π‘†π‘‘π‘Žπ‘›π‘‘π‘Žπ‘Ÿπ‘‘ πΈπ‘žπ‘’π‘Žπ‘‘π‘–π‘œπ‘› (π‘₯ βˆ’ β„Ž)2 +(𝑦 βˆ’ π‘˜)2 = π‘Ÿ2 , r > 0
Types of Conics Section Example 1:Write the equation of a circle which point (-6, 4) lies on the circle and center at (-5, 0). 1st Step: Find the radius (π‘₯ βˆ’ β„Ž)2 +(𝑦 βˆ’ π‘˜)2 = π‘Ÿ2 center: (-5, 0), radius: (-6, 0) ---Apply Direct Substitution--- (π‘₯ βˆ’ β„Ž)2 +(𝑦 βˆ’ π‘˜)2 = π‘Ÿ2 (βˆ’6 βˆ’ (βˆ’5))2 +(4 βˆ’ 0)2 = π‘Ÿ2 (βˆ’6 + 5)2 +(4)2 = π‘Ÿ2 (βˆ’1)2 +16 = π‘Ÿ2 1+16 = π‘Ÿ2 17= π‘Ÿ2 2nd Step: Write the Standard equation (π‘₯ βˆ’ β„Ž)2 +(𝑦 βˆ’ π‘˜)2 = π‘Ÿ2 (π‘₯ + 5)2 +(𝑦 βˆ’ 0)2 = 17 Or (π‘₯ + 5)2 +𝑦2 = 17
Types of Conics Section 2. Parabola οƒΌ Is made from a plane intersecting a cone at an angle parallel to the slant edge.
Types of Conics Section 2. Parabola οƒΌ Let F be a given point, and β„“ a given line not containing F. The set of all points P such that its distances from F and from β„“ are the same, is called a parabola. Pβ„“ Directrix P(x, y) β„“ F
Types of Conics Section 2. Parabola οƒΌ A set of points on the coordinate plane that are of equal distance from a fixed point and line. The fixed point is called focus and the fixed line is called the directrix. Pβ„“ Directrix P(x, y) β„“ F
Types of Conics Section 2. Parabola The line connecting two points on the parabola and passing through the focus is called the latus rectum. The Axis of symmetry is the line which divides the parabola into two equal parts and passes through the vertex and the focus. Pβ„“ Directrix P(x, y) β„“ F
Types of Conics Section 2. Parabola Vertices Foci Directrices Equation Description 1. (β„Ž, π‘˜) (β„Ž Β± 𝑝, π‘˜) π‘₯ = β„Ž βˆ’ 𝑝 (𝑦 βˆ’ π‘˜)2= 4𝑝(π‘₯ βˆ’ β„Ž) The axis of symmetry is 𝑦 = π‘˜ Open to the right if p>0 Open to the left if p<0 2. (β„Ž, π‘˜) (β„Ž, π‘˜ Β± 𝑝) 𝑦 = π‘˜ βˆ’ 𝑝 (π‘₯ βˆ’ β„Ž)2= 4𝑝(𝑦 βˆ’ π‘˜) The axis of symmetry is π‘₯ = β„Ž Opens upward if p>0 Opens downward if p<0 Standard Equations of Parabola with vertex at (h, k) and axis of symmetry Parallel to a coordinate axis The general Equation of a parabola is; 𝐴π‘₯2 + 𝐷π‘₯ + 𝐸𝑦 + 𝐹 = 0, 𝐸 β‰  0 𝑖𝑓 π‘‘β„Žπ‘’ π‘π‘Žπ‘Ÿπ‘Žπ‘π‘œπ‘™π‘Ž π‘œπ‘π‘’π‘›π‘  π‘’π‘π‘€π‘Žπ‘Ÿπ‘‘/π‘‘π‘œπ‘€π‘›π‘€π‘Žπ‘Ÿπ‘‘ 𝐴π‘₯2 + 𝐷π‘₯ + 𝐸𝑦 + 𝐹 = 0, 𝐷 β‰  0 𝑖𝑓 π‘‘β„Žπ‘’ π‘π‘Žπ‘Ÿπ‘Žπ‘π‘œπ‘™π‘Ž π‘œπ‘π‘’π‘›π‘  π‘ π‘–π‘‘π‘’π‘€π‘Žπ‘¦π‘ 
Types of Conics Section Example 1: Identify the coordinates of the vertex, focus, and the equations of the axis of symmetry and directrix. Then Sketch the graph. 1. (π‘₯ βˆ’ 2)2 = 4 𝑦 βˆ’ 1 opening of parabola: Upward p>0 4𝑝 = 4 4 = 4 P= 1 Vertex: (2, 1) Focus: (h, k+p)β€”(2, 1+1)β€”(2, 2) Axis of Symmetry: x=hβ€”(x=2) Directrix: 𝑦 = π‘˜ βˆ’ 𝑝 =1-1 y=0 h, k x=2 F (2, 2) V (2, 1) y = 0
Types of Conics Section 3. Ellipse οƒΌ Is made from a plane intersecting a cone at an angle parallel to the slant edge.
Types of Conics Section 3. Ellipse οƒΌ Let 𝐹1 and 𝐹2 be two distinct points. The set of all points P, Whose distances from 𝐹1 and from 𝐹2 add up to a certain constant, is called an ellipse. The points 𝐹1 and 𝐹2 are called the foci of the ellipse. 𝐹1 𝐹2 𝑃1 𝑃2 𝑷 𝟏 𝑭 𝟏 + 𝑭 𝟏 𝑷 𝟐 = 𝑷 𝟐 𝑭 𝟐 + 𝑭 𝟐 𝑷 𝟏
Types of Conics Section 3. Ellipse οƒΌ Let 𝐹1 and 𝐹2 be two distinct points. The set of all points P, Whose distances from 𝐹1 and from 𝐹2 add up to a certain constant, is called an ellipse. The points 𝐹1 and 𝐹2 are called the foci of the ellipse. Vertices Foci Endpoint of Minor Axis Equation Descriptio n Directrices Axis of symmetry (β„Ž Β± π‘Ž, π‘˜) (β„Ž Β± 𝑐, π‘˜) (β„Ž Β± 𝑏, π‘˜) (π‘₯ βˆ’ β„Ž)2 π‘Ž2 + (𝑦 βˆ’ π‘˜)2 𝑏2 a>b Major Axis is Horizontal π‘₯ = β„Ž Β± π‘Ž 𝑒 Both Axis (β„Ž, π‘˜ Β± π‘Ž) (β„Ž, π‘˜ Β± 𝑐) (β„Ž, π‘˜ Β± 𝑏) (π‘₯ βˆ’ β„Ž)2 𝑏2 + (𝑦 βˆ’ π‘˜)2 π‘Ž2 Major Axis is Vertical 𝑦 = π‘˜ Β± π‘Ž 𝑒 Both Axis Standard Equation of Ellipse with Center (h, k)
Types of Conics Section 3. Ellipse Eccentricity: 𝑒 = 𝑐 π‘Ž e(a constant)= π‘‘π‘–π‘ π‘‘π‘Žπ‘›π‘π‘’ π‘‘π‘œ π‘“π‘œπ‘π‘’π‘  π‘‘π‘–π‘ π‘‘π‘Žπ‘›π‘π‘’ π‘‘π‘œ π‘‘π‘–π‘Ÿπ‘’π‘π‘‘π‘Ÿπ‘–π‘₯ e=0 for Circle 0<e<1 for Ellipse e=1 for Parabola e>1 for hyperbola The general form of the equation of an ellipse is 𝐴π‘₯2 + 𝐢𝑦2 + 𝐷π‘₯ + 𝐸𝑦 + 𝐹 = 0 with AC>0 and aβ‰  0. Properties: β€’ a, b, c β€’ Center β€’ Vertex β€’ Covertex( endpoints of Minor axis) β€’ Foci β€’ Directrix β€’ Axis of Symmetry β€’ Major Axis β€’ Length of Major Axis β€’ Minor Axis β€’ Length of Minor Axis
Types of Conics Section Example 1: Identify the properties of the equations and sketch the graph. 1. (π‘₯βˆ’2)2 16 + (π‘¦βˆ’1)2 4 = 1 a=4, b=2, c= 12 Center(h, k): 2, 1) Vertex (hΒ±π‘Ž, π‘˜): (2 Β±4, 1) 𝑉1: 6, 1 & 𝑉2: βˆ’2, 1 Foci (h Β±c, k): (2Β± 12, 1) 𝐹1: 2 + 12, 1 or (5.46, 1) & 𝐹2: 2 βˆ’ 12, 1 or βˆ’1.46, 1 Covertex (h, k±𝑏): (2, 1Β±2) 𝐡1: 2, 3 & 𝐡2: 2, βˆ’1 Directrix π‘₯ = β„Ž Β± π‘Ž 𝑒 : 𝑋1: 2 + 4 12 4 ; 2+4.61=6.61 𝑋2: 2 βˆ’ 4 12 4 ; 2-4.61=-2.61 Axis of Symmetry: x=2; y=1 Major Axis: Horizontal Minor Axis: Vertical 𝐹1 𝐹2 c 𝐡1 𝐡2 𝑉1 𝑉2
Types of Conics Section 4. Hyperbola οƒΌ Is made from a plane intersecting both halves of a double cone, but not passing through the apex.
Types of Conics Section 4. Hyperbola Let 𝐹1 and 𝐹2 be two distinct points. The set of all points P, Whose distances from 𝐹1 and 𝐹2 differ by a certain constant, is called a hyperbola. The points 𝐹1 and 𝐹2 are called the foci of the hyperbola. 𝐹1 𝐹2 𝑃1 𝑃2 𝑭 𝟏 𝑷 𝟏 βˆ’ 𝑭 𝟐 𝑷 𝟐 = 𝑭 𝟏 𝑷 𝟐 βˆ’ 𝑭 𝟐 𝑷 𝟐
Types of Conics Section 4. Hyperbola A hyperbola is a set of all points in the plane such that the absolute value of the difference of the distances from two fixed points are called the foci of the hyperbola. 𝐹1 𝐹2 𝑃1 𝑃2 𝑭 𝟏 𝑷 𝟏 βˆ’ 𝑭 𝟐 𝑷 𝟐 = 𝑭 𝟏 𝑷 𝟐 βˆ’ 𝑭 𝟐 𝑷 𝟐
Types of Conics Section 4. Hyperbola Transverse Axis of the parabola is the line that connects the vertices and has the length of 2a. Conjugate Axis is the line that connects the co-vertices and has a length of 2b 𝐹1 𝐹2 𝑃1 𝑃2 𝑭 𝟏 𝑷 𝟏 βˆ’ 𝑭 𝟐 𝑷 𝟐 = 𝑭 𝟏 𝑷 𝟐 βˆ’ 𝑭 𝟐 𝑷 𝟐
Types of Conics Section 4. Hyperbola Equation Vertices Foci Endpoints of conjugate axis Asymptotes Directrices (π‘₯ βˆ’ β„Ž)2 π‘Ž2 βˆ’ 𝑦 βˆ’ π‘˜ 2 𝑏2 = 1 𝑏2 = 𝑐2 βˆ’ π‘Ž2 𝑐2 = π‘Ž2 + 𝑏2 (β„Ž Β± π‘Ž, π‘˜) (β„Ž Β± 𝑐, π‘˜) (β„Ž, π‘˜ Β± 𝑏) 𝑦 βˆ’ π‘˜ = Β± 𝑏 π‘Ž (π‘₯ βˆ’ β„Ž) π‘₯ = β„Ž Β± π‘Ž 𝑒 (𝑦 βˆ’ π‘˜)2 π‘Ž2 βˆ’ π‘₯ βˆ’ β„Ž 2 𝑏2 = 1 𝑏2 = 𝑐2 βˆ’ π‘Ž2 (β„Ž, π‘˜ Β± π‘Ž) (β„Ž, π‘˜ Β± 𝑐) (β„Ž Β± 𝑏, π‘˜) 𝑦 βˆ’ π‘˜ = Β± π‘Ž 𝑏 (π‘₯ βˆ’ β„Ž) 𝑦 = π‘˜ Β± π‘Ž 𝑒 Standard Equation of Ellipse with Center (h, k)
Types of Conics Section 4. Hyperbola Steps in graphing the Hyperbola: 1. Find the vertices of the hyperbola 2. Draw the fundamental triangle 3. Sketch the asymptote as diagonals 4. Sketch the graph. Each graph goes through the vertex and approaches each asymptotes.
Types of Conics Section Example 1: Sketch the graph: π‘₯2 52 βˆ’ 𝑦2 42=1 Center: (0, 0) Vertex (hΒ±π‘Ž, π‘˜)= (0Β±5, 0) 𝑉1: 5, 0 & 𝑉2: βˆ’5, 0 F(h±𝑐, π‘˜): F(0Β± 41, 0) 𝐹1: 41 ,0 & 𝐹2: βˆ’ 41, 0 B(h, k±𝑏): (0, 0Β±4) 𝐡1: 0, 4 & 𝐡2: 0, βˆ’4 Assymptotes: 𝑦 βˆ’ π‘˜ = Β± 𝑏 π‘Ž π‘₯ βˆ’ β„Ž 𝑦 βˆ’ 0 = Β± 4 5 (π‘₯ βˆ’ 0) 𝑦1= 4 5 π‘₯ & 𝑦2=- 4 5 π‘₯ h , k π‘Ž2 = 52 a=5 𝑏2 = 42 𝑏 = 4 𝑐2 = π‘Ž2 + 𝑏2 𝑐2 = 25 + 16 β†’ 𝑐 = 41 Directrix: x=β„Ž Β± π‘Ž 𝑒 e = 𝑐 π‘Ž = 41 5 x=0 Β± 5 41 5 π‘₯1 = 3.9 π‘₯2 = βˆ’3.9
Types of Conics Section Graph: π‘₯2 52 βˆ’ 𝑦2 42=1 𝑦2=- 4 5 π‘₯ 𝑦1= 4 5 π‘₯ c 𝐹1𝐹2 𝐡1 𝐡2 𝑉1𝑉2 y x
Thank you for listening!!!

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Conic Section

  • 2. When a straight line intersect a vertical line at the fixed point and rotate about the fixed point. The surface obtained is called a double right circular cone.
  • 3. A double right circular cone consist of two cones joined at the fixed point called the vertex. A line that rotates about the vertex is called the generator. The line that remain fixed is called the axis. The right circular cone has a circular base and its axis is always perpendicular to its base. Vertex Generator Lower nappe Directrix Upper nappe Axis The Perimeter of its base is what we called the directrix. And the Lateral surface of the cone is called a nappe. A double right circular cone has two nappe, the cone above the vertex is the upper nappe and below the vertex is the lower nappe.
  • 4. What is Conics? What is Conic Section?
  • 5. What is Conic Section? οƒΌ two-dimensional figure created by the intersection of a plane and a right circular cone. οƒΌ If a plane intersects a right circular cone, we get two dimensional curves of different types. This curves is called the conic sections.
  • 6. What is Conics? οƒΌ two-dimensional figure created by the intersection of a plane and a right circular cone. There are many types of curve produced when a plane slices through a cone.  Parabola  Circle  Ellipse  Hyperbola
  • 7. Types of Conics Section 1. Circle οƒΌ Is made from a plane intersecting a cone parallel to its base. A circle is the locus of points that are equidistant from a fixed point (the center).
  • 8. Types of Conics Section 1. Circle οƒΌ Let C be a given point. The set of all points P having the same distance from C is called a circle. The point C is called the center of the circle and the common distance is its radius. Q The circle has a center, C(0, 0) and radius r>0. A point P(x, y) is on the circle if and only if 𝑃𝐢 = π‘Ÿ π‘†π‘‘π‘Žπ‘›π‘‘π‘Žπ‘Ÿπ‘‘ πΈπ‘žπ‘’π‘Žπ‘‘π‘–π‘œπ‘› π‘₯2 + 𝑦2 = π‘Ÿ2 , r > 0 c P(x,y)
  • 9. Types of Conics Section 1. Circle οƒΌ Let C be a given point. The set of all points P having the same distance from C is called a circle. The point C is called the center of the circle and the common distance is its radius. The circle has a center, C(h, k) and radius r>0. A point P(x, y) is on the circle if and only if 𝑃𝐢 = π‘Ÿ π‘†π‘‘π‘Žπ‘›π‘‘π‘Žπ‘Ÿπ‘‘ πΈπ‘žπ‘’π‘Žπ‘‘π‘–π‘œπ‘› (π‘₯ βˆ’ β„Ž)2 +(𝑦 βˆ’ π‘˜)2 = π‘Ÿ2 , r > 0
  • 10. Types of Conics Section Example 1:Write the equation of a circle which point (-6, 4) lies on the circle and center at (-5, 0). 1st Step: Find the radius (π‘₯ βˆ’ β„Ž)2 +(𝑦 βˆ’ π‘˜)2 = π‘Ÿ2 center: (-5, 0), radius: (-6, 0) ---Apply Direct Substitution--- (π‘₯ βˆ’ β„Ž)2 +(𝑦 βˆ’ π‘˜)2 = π‘Ÿ2 (βˆ’6 βˆ’ (βˆ’5))2 +(4 βˆ’ 0)2 = π‘Ÿ2 (βˆ’6 + 5)2 +(4)2 = π‘Ÿ2 (βˆ’1)2 +16 = π‘Ÿ2 1+16 = π‘Ÿ2 17= π‘Ÿ2 2nd Step: Write the Standard equation (π‘₯ βˆ’ β„Ž)2 +(𝑦 βˆ’ π‘˜)2 = π‘Ÿ2 (π‘₯ + 5)2 +(𝑦 βˆ’ 0)2 = 17 Or (π‘₯ + 5)2 +𝑦2 = 17
  • 11. Types of Conics Section 2. Parabola οƒΌ Is made from a plane intersecting a cone at an angle parallel to the slant edge.
  • 12. Types of Conics Section 2. Parabola οƒΌ Let F be a given point, and β„“ a given line not containing F. The set of all points P such that its distances from F and from β„“ are the same, is called a parabola. Pβ„“ Directrix P(x, y) β„“ F
  • 13. Types of Conics Section 2. Parabola οƒΌ A set of points on the coordinate plane that are of equal distance from a fixed point and line. The fixed point is called focus and the fixed line is called the directrix. Pβ„“ Directrix P(x, y) β„“ F
  • 14. Types of Conics Section 2. Parabola The line connecting two points on the parabola and passing through the focus is called the latus rectum. The Axis of symmetry is the line which divides the parabola into two equal parts and passes through the vertex and the focus. Pβ„“ Directrix P(x, y) β„“ F
  • 15. Types of Conics Section 2. Parabola Vertices Foci Directrices Equation Description 1. (β„Ž, π‘˜) (β„Ž Β± 𝑝, π‘˜) π‘₯ = β„Ž βˆ’ 𝑝 (𝑦 βˆ’ π‘˜)2= 4𝑝(π‘₯ βˆ’ β„Ž) The axis of symmetry is 𝑦 = π‘˜ Open to the right if p>0 Open to the left if p<0 2. (β„Ž, π‘˜) (β„Ž, π‘˜ Β± 𝑝) 𝑦 = π‘˜ βˆ’ 𝑝 (π‘₯ βˆ’ β„Ž)2= 4𝑝(𝑦 βˆ’ π‘˜) The axis of symmetry is π‘₯ = β„Ž Opens upward if p>0 Opens downward if p<0 Standard Equations of Parabola with vertex at (h, k) and axis of symmetry Parallel to a coordinate axis The general Equation of a parabola is; 𝐴π‘₯2 + 𝐷π‘₯ + 𝐸𝑦 + 𝐹 = 0, 𝐸 β‰  0 𝑖𝑓 π‘‘β„Žπ‘’ π‘π‘Žπ‘Ÿπ‘Žπ‘π‘œπ‘™π‘Ž π‘œπ‘π‘’π‘›π‘  π‘’π‘π‘€π‘Žπ‘Ÿπ‘‘/π‘‘π‘œπ‘€π‘›π‘€π‘Žπ‘Ÿπ‘‘ 𝐴π‘₯2 + 𝐷π‘₯ + 𝐸𝑦 + 𝐹 = 0, 𝐷 β‰  0 𝑖𝑓 π‘‘β„Žπ‘’ π‘π‘Žπ‘Ÿπ‘Žπ‘π‘œπ‘™π‘Ž π‘œπ‘π‘’π‘›π‘  π‘ π‘–π‘‘π‘’π‘€π‘Žπ‘¦π‘ 
  • 16. Types of Conics Section Example 1: Identify the coordinates of the vertex, focus, and the equations of the axis of symmetry and directrix. Then Sketch the graph. 1. (π‘₯ βˆ’ 2)2 = 4 𝑦 βˆ’ 1 opening of parabola: Upward p>0 4𝑝 = 4 4 = 4 P= 1 Vertex: (2, 1) Focus: (h, k+p)β€”(2, 1+1)β€”(2, 2) Axis of Symmetry: x=hβ€”(x=2) Directrix: 𝑦 = π‘˜ βˆ’ 𝑝 =1-1 y=0 h, k x=2 F (2, 2) V (2, 1) y = 0
  • 17. Types of Conics Section 3. Ellipse οƒΌ Is made from a plane intersecting a cone at an angle parallel to the slant edge.
  • 18. Types of Conics Section 3. Ellipse οƒΌ Let 𝐹1 and 𝐹2 be two distinct points. The set of all points P, Whose distances from 𝐹1 and from 𝐹2 add up to a certain constant, is called an ellipse. The points 𝐹1 and 𝐹2 are called the foci of the ellipse. 𝐹1 𝐹2 𝑃1 𝑃2 𝑷 𝟏 𝑭 𝟏 + 𝑭 𝟏 𝑷 𝟐 = 𝑷 𝟐 𝑭 𝟐 + 𝑭 𝟐 𝑷 𝟏
  • 19. Types of Conics Section 3. Ellipse οƒΌ Let 𝐹1 and 𝐹2 be two distinct points. The set of all points P, Whose distances from 𝐹1 and from 𝐹2 add up to a certain constant, is called an ellipse. The points 𝐹1 and 𝐹2 are called the foci of the ellipse. Vertices Foci Endpoint of Minor Axis Equation Descriptio n Directrices Axis of symmetry (β„Ž Β± π‘Ž, π‘˜) (β„Ž Β± 𝑐, π‘˜) (β„Ž Β± 𝑏, π‘˜) (π‘₯ βˆ’ β„Ž)2 π‘Ž2 + (𝑦 βˆ’ π‘˜)2 𝑏2 a>b Major Axis is Horizontal π‘₯ = β„Ž Β± π‘Ž 𝑒 Both Axis (β„Ž, π‘˜ Β± π‘Ž) (β„Ž, π‘˜ Β± 𝑐) (β„Ž, π‘˜ Β± 𝑏) (π‘₯ βˆ’ β„Ž)2 𝑏2 + (𝑦 βˆ’ π‘˜)2 π‘Ž2 Major Axis is Vertical 𝑦 = π‘˜ Β± π‘Ž 𝑒 Both Axis Standard Equation of Ellipse with Center (h, k)
  • 20. Types of Conics Section 3. Ellipse Eccentricity: 𝑒 = 𝑐 π‘Ž e(a constant)= π‘‘π‘–π‘ π‘‘π‘Žπ‘›π‘π‘’ π‘‘π‘œ π‘“π‘œπ‘π‘’π‘  π‘‘π‘–π‘ π‘‘π‘Žπ‘›π‘π‘’ π‘‘π‘œ π‘‘π‘–π‘Ÿπ‘’π‘π‘‘π‘Ÿπ‘–π‘₯ e=0 for Circle 0<e<1 for Ellipse e=1 for Parabola e>1 for hyperbola The general form of the equation of an ellipse is 𝐴π‘₯2 + 𝐢𝑦2 + 𝐷π‘₯ + 𝐸𝑦 + 𝐹 = 0 with AC>0 and aβ‰  0. Properties: β€’ a, b, c β€’ Center β€’ Vertex β€’ Covertex( endpoints of Minor axis) β€’ Foci β€’ Directrix β€’ Axis of Symmetry β€’ Major Axis β€’ Length of Major Axis β€’ Minor Axis β€’ Length of Minor Axis
  • 21. Types of Conics Section Example 1: Identify the properties of the equations and sketch the graph. 1. (π‘₯βˆ’2)2 16 + (π‘¦βˆ’1)2 4 = 1 a=4, b=2, c= 12 Center(h, k): 2, 1) Vertex (hΒ±π‘Ž, π‘˜): (2 Β±4, 1) 𝑉1: 6, 1 & 𝑉2: βˆ’2, 1 Foci (h Β±c, k): (2Β± 12, 1) 𝐹1: 2 + 12, 1 or (5.46, 1) & 𝐹2: 2 βˆ’ 12, 1 or βˆ’1.46, 1 Covertex (h, k±𝑏): (2, 1Β±2) 𝐡1: 2, 3 & 𝐡2: 2, βˆ’1 Directrix π‘₯ = β„Ž Β± π‘Ž 𝑒 : 𝑋1: 2 + 4 12 4 ; 2+4.61=6.61 𝑋2: 2 βˆ’ 4 12 4 ; 2-4.61=-2.61 Axis of Symmetry: x=2; y=1 Major Axis: Horizontal Minor Axis: Vertical 𝐹1 𝐹2 c 𝐡1 𝐡2 𝑉1 𝑉2
  • 22. Types of Conics Section 4. Hyperbola οƒΌ Is made from a plane intersecting both halves of a double cone, but not passing through the apex.
  • 23. Types of Conics Section 4. Hyperbola Let 𝐹1 and 𝐹2 be two distinct points. The set of all points P, Whose distances from 𝐹1 and 𝐹2 differ by a certain constant, is called a hyperbola. The points 𝐹1 and 𝐹2 are called the foci of the hyperbola. 𝐹1 𝐹2 𝑃1 𝑃2 𝑭 𝟏 𝑷 𝟏 βˆ’ 𝑭 𝟐 𝑷 𝟐 = 𝑭 𝟏 𝑷 𝟐 βˆ’ 𝑭 𝟐 𝑷 𝟐
  • 24. Types of Conics Section 4. Hyperbola A hyperbola is a set of all points in the plane such that the absolute value of the difference of the distances from two fixed points are called the foci of the hyperbola. 𝐹1 𝐹2 𝑃1 𝑃2 𝑭 𝟏 𝑷 𝟏 βˆ’ 𝑭 𝟐 𝑷 𝟐 = 𝑭 𝟏 𝑷 𝟐 βˆ’ 𝑭 𝟐 𝑷 𝟐
  • 25. Types of Conics Section 4. Hyperbola Transverse Axis of the parabola is the line that connects the vertices and has the length of 2a. Conjugate Axis is the line that connects the co-vertices and has a length of 2b 𝐹1 𝐹2 𝑃1 𝑃2 𝑭 𝟏 𝑷 𝟏 βˆ’ 𝑭 𝟐 𝑷 𝟐 = 𝑭 𝟏 𝑷 𝟐 βˆ’ 𝑭 𝟐 𝑷 𝟐
  • 26. Types of Conics Section 4. Hyperbola Equation Vertices Foci Endpoints of conjugate axis Asymptotes Directrices (π‘₯ βˆ’ β„Ž)2 π‘Ž2 βˆ’ 𝑦 βˆ’ π‘˜ 2 𝑏2 = 1 𝑏2 = 𝑐2 βˆ’ π‘Ž2 𝑐2 = π‘Ž2 + 𝑏2 (β„Ž Β± π‘Ž, π‘˜) (β„Ž Β± 𝑐, π‘˜) (β„Ž, π‘˜ Β± 𝑏) 𝑦 βˆ’ π‘˜ = Β± 𝑏 π‘Ž (π‘₯ βˆ’ β„Ž) π‘₯ = β„Ž Β± π‘Ž 𝑒 (𝑦 βˆ’ π‘˜)2 π‘Ž2 βˆ’ π‘₯ βˆ’ β„Ž 2 𝑏2 = 1 𝑏2 = 𝑐2 βˆ’ π‘Ž2 (β„Ž, π‘˜ Β± π‘Ž) (β„Ž, π‘˜ Β± 𝑐) (β„Ž Β± 𝑏, π‘˜) 𝑦 βˆ’ π‘˜ = Β± π‘Ž 𝑏 (π‘₯ βˆ’ β„Ž) 𝑦 = π‘˜ Β± π‘Ž 𝑒 Standard Equation of Ellipse with Center (h, k)
  • 27. Types of Conics Section 4. Hyperbola Steps in graphing the Hyperbola: 1. Find the vertices of the hyperbola 2. Draw the fundamental triangle 3. Sketch the asymptote as diagonals 4. Sketch the graph. Each graph goes through the vertex and approaches each asymptotes.
  • 28. Types of Conics Section Example 1: Sketch the graph: π‘₯2 52 βˆ’ 𝑦2 42=1 Center: (0, 0) Vertex (hΒ±π‘Ž, π‘˜)= (0Β±5, 0) 𝑉1: 5, 0 & 𝑉2: βˆ’5, 0 F(h±𝑐, π‘˜): F(0Β± 41, 0) 𝐹1: 41 ,0 & 𝐹2: βˆ’ 41, 0 B(h, k±𝑏): (0, 0Β±4) 𝐡1: 0, 4 & 𝐡2: 0, βˆ’4 Assymptotes: 𝑦 βˆ’ π‘˜ = Β± 𝑏 π‘Ž π‘₯ βˆ’ β„Ž 𝑦 βˆ’ 0 = Β± 4 5 (π‘₯ βˆ’ 0) 𝑦1= 4 5 π‘₯ & 𝑦2=- 4 5 π‘₯ h , k π‘Ž2 = 52 a=5 𝑏2 = 42 𝑏 = 4 𝑐2 = π‘Ž2 + 𝑏2 𝑐2 = 25 + 16 β†’ 𝑐 = 41 Directrix: x=β„Ž Β± π‘Ž 𝑒 e = 𝑐 π‘Ž = 41 5 x=0 Β± 5 41 5 π‘₯1 = 3.9 π‘₯2 = βˆ’3.9
  • 29. Types of Conics Section Graph: π‘₯2 52 βˆ’ 𝑦2 42=1 𝑦2=- 4 5 π‘₯ 𝑦1= 4 5 π‘₯ c 𝐹1𝐹2 𝐡1 𝐡2 𝑉1𝑉2 y x