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Day 7: Orthocentres Unit 3: Coordinate Geometry

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Presentation on theme: "Day 7: Orthocentres Unit 3: Coordinate Geometry"— Presentation transcript:

1 Day 7: Orthocentres Unit 3: Coordinate Geometry
Did you know that the longest street in the world is in Toronto? (Yonge St. is 1896 km long)

2 Learning Goals To be able to calculate the orthocentre of a triangle

3 Orthocentre The point of intersection of the three altitudes of a triangle

4 Draw a triangle with vertices A (0, 4), B (−2, 2) and C (6, 2)
Draw a triangle with vertices A (0, 4), B (−2, 2) and C (6, 2). Sketch the altitudes. Find the coordinates of the orthocentre.

5 Draw a triangle with vertices A (0, 4), B (−2, 2) and C (6, 2)
Draw a triangle with vertices A (0, 4), B (−2, 2) and C (6, 2). Sketch the altitudes. Find the coordinates of the orthocentre. Step 1: Find the equation of one of the altitudes.

6 Draw a triangle with vertices A (0, 4), B (−2, 2) and C (6, 2)
Draw a triangle with vertices A (0, 4), B (−2, 2) and C (6, 2). Sketch the altitudes. Find the coordinates of the orthocentre. Step 2: Find the equation of another altitude.

7 Draw a triangle with vertices A (0, 4), B (−2, 2) and C (6, 2)
Draw a triangle with vertices A (0, 4), B (−2, 2) and C (6, 2). Sketch the altitudes. Find the coordinates of the orthocentre. Step 3: Use substitution or elimination to find the point of intersection.

8 Orthocentre The point of intersection of the three altitudes of a triangle Calculate the equations of two of the altitudes Solve using substitution

9 Success Criteria I CAN use the equations of the altitudes to find the orthocentre of a triangle

10 To Do… Worksheet Check the website daily for updates, missed notes, assignment solutions New: note outline available the night before (completed note will no longer be posted)

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