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IB Math SL1 - Santowski T5.1 – Geometric Vectors 3/3/2016 1 IB Math SL1 - Santowski.

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Presentation on theme: "IB Math SL1 - Santowski T5.1 – Geometric Vectors 3/3/2016 1 IB Math SL1 - Santowski."— Presentation transcript:

1 IB Math SL1 - Santowski T5.1 – Geometric Vectors 3/3/2016 1 IB Math SL1 - Santowski

2 (A) Introduction We have considered vectors as directed line segments and investigated vectors: (a) visually as scale drawings with a particular angle/direction associated with them (b) algebraically in terms of x- and y-components as well as i- and j- components (c) Now let’s place our vectors into the Cartesian plane and combine a visual representation with an algebraic representation as we introduce ordered pairs with which to work with vectors 3/3/2016 2 IB Math SL1 - Santowski

3 (B) Visual Representation Let’s consider the two points: A(-3,2) which will be the starting point (or tail) of the vector and the point B(1,-1) which will be the ending point (or head) of the vector. So, we have constructed the vector The vector 3/3/2016 3 IB Math SL1 - Santowski

4 (B) Visual Representation Let’s consider the two points: A(-3,2) which will be the starting point (or tail) of the vector and the point B(1,-1) which will be the ending point (or head) of the vector. So, we have constructed the vector The vector 3/3/2016 4 IB Math SL1 - Santowski

5 (C) Working with Geometric Vectors Since is defined on the Cartesian plane, we can determine: (a) its components (b) its length (c) its direction 3/3/2016 5 IB Math SL1 - Santowski

6 (C) Working with Geometric Vectors Since is defined on the Cartesian plane, we can determine: (a) its components (+4 in the x and -3 in the y) (b) its length (c) its direction 3/3/2016 6 IB Math SL1 - Santowski

7 (D) Working with Geometric Vectors – Geometric Shapes Given the following diagram, use vector methods prove that the figure is a parallelogram 3/3/2016 7 IB Math SL1 - Santowski

8 (D) Working with Geometric Vectors – Geometric Shapes Given the following diagram, use vector methods to prove that the figure is a parallelogram HINT: What does vector equality mean? How can you show 2 vectors are equal? 3/3/2016 8 IB Math SL1 - Santowski

9 (D) Working with Geometric Vectors – Geometric Shapes Given the points A(-3,2), B(2,1) and C(-1,-4), find the position of the fourth point such that ABCD is a parallelogram 3/3/2016 9 IB Math SL1 - Santowski

10 (D) Working with Geometric Vectors – Geometric Shapes Given the following diagram, use vector methods prove that the figure is a parallelogram 3/3/2016 10 IB Math SL1 - Santowski

11 (D) Working with Geometric Vectors – Geometric Shapes Given the following diagram, use vector methods determine the position of the 4 th point so that the figure is a parallelogram 3/3/2016 11 IB Math SL1 - Santowski

12 (E) Position Vectors In introducing the idea of a position vector, we now change from free vectors (the vectors position in space is NOT considered) to fixed vectors (which start at a SPECIFIC point and are thus fixed in space) The most convenient fixed point  the origin 3/3/2016 12 IB Math SL1 - Santowski

13 (E) Position Vectors In introducing the idea of a position vector, we now change from free vectors (the vectors position in space is NOT considered) to fixed vectors (which start at a SPECIFIC point and are thus fixed in space) Consider point P  and construct the position vector 3/3/2016 13 IB Math SL1 - Santowski

14 (E) Position Vectors Now construct the 2 position vectors So the three vectors can be connected via algebraic operations: and our vector can be viewed as a result of a vector subtraction 3/3/2016 14 IB Math SL1 - Santowski

15 (F) Collinear Points We can work with position vectors to prove that three points are collinear (in this case A, R, B) Let’s work with : (i) A(2,1), R(4,7), & B(12,16) (ii) A(2,1), R(4,7), & B(12,12) 3/3/2016 15 IB Math SL1 - Santowski

16 (F) Collinear Points We can work with position vectors to prove that three points are collinear (in this case A, R, B) Let’s work with : (i) A(2,1), R(4,7), & B(12,16) (ii) A(2,1), R(4,7), & B(12,12) Conclusion to be made  3 points are collinear if one position vector can be written as sum of the other 2 position vectors  i.e. r = as + tb 3/3/2016 16 IB Math SL1 - Santowski

17 (G) 3D Space Co-ordinate geometry can also be used to introduce 3D space as we “extend” our Cartesian plane into a third dimension as we consider our vector (a x, a y, a z ) 3/3/2016 17 IB Math SL1 - Santowski

18 Homework HW – Ex 15C.1 #1bc, 2ade; Ex 15C.2 #1f, 2ef, 3; Ex 15C.3 #1df; Ex 15C.4 #1ace, 2fgh; Ex 15E #1,2, 3, 4, 5ab, 6,7 3/3/2016 18 IB Math SL1 - Santowski

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