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Vectors and Dot Product 6.4 JMerrill, 2010. Quick Review of Vectors: Definitions Vectors are quantities that are described by direction and magnitude.

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Presentation on theme: "Vectors and Dot Product 6.4 JMerrill, 2010. Quick Review of Vectors: Definitions Vectors are quantities that are described by direction and magnitude."— Presentation transcript:

1 Vectors and Dot Product 6.4 JMerrill, 2010

2 Quick Review of Vectors: Definitions Vectors are quantities that are described by direction and magnitude (size). Example: A force is a vector because in order to describe a force, you must specify the direction in which it acts and its strength. Example: The velocity of an airplane is a vector because velocity must be described by direction and speed. The vector is the zero vector. It has no direction.

3 Representation of Vectors The velocities of 3 airplanes, two of which are heading northeast at 700 knots, are represented by u and v u v W e say u = v to indicate both planes have the same velocity. w ≠ u or v because the direction is different. w

4 Magnitude The magnitude of vector v is represented by the absolute value of v (with double bars) In the previous example, We know that, but u ≠ w, and v ≠ w because the direction is not the same.

5 Addition of Vectors A B C 10 5 The sum is called the resultant.

6 Component Form From the tail to the tip of vector v, we see: A 2 unit change in the x- direction, and A -3 unit change in the y- direction. 2 and -3 are the components of v. When we write v = we are expressing v in component form. 2 3

7 You can count the number of spaces to get the component form or, you can subtract the coordinates. IT IS ALWAYS B – A! The magnitude of vector AB is found using the distance formula: (x 1,y 1 ) (x 2,y 2 ) (x 2 – x 1 ) (y 2 – y 1 )

8 Example Given A(4, 2) and B(9, -1), express in component form. Find

9 Vector Operations with Coordinates VVector Addition vv + u = VVector Subtraction vv - u = SScalar Multiplication kk v =

10 Example If u = and v =, find: u + v u – v 2 u – 3 v

11 Definition – Dot Product Example: Find the dot product: 6 (-2) + (1)(3) = -12 + 3 = -9 The dot product gives you a scalar, NOT a vector!

12 Properties of the Dot Product Let u, v, and w be vectors in the plane or in space and let c be a scalar.

13 Angle Between Two Vectors

14 Example Find the angle between

15 Orthogonal (Perpendicular) Vectors Two vectors are orthogonal if their dot product is 0 Example:

16 You Try Find Find Find the angle between

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