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34. Vectors. Essential Question What is a vector and how do you combine them?

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Presentation on theme: "34. Vectors. Essential Question What is a vector and how do you combine them?"— Presentation transcript:

1 34. Vectors

2 Essential Question What is a vector and how do you combine them?

3 A scalar is a quantity that has magnitude only (no direction) Scalars Examples of Scalar Quantities:  Distance  Area  Volume  Time  Mass

4 A vector quantity is a quantity that has both magnitude and a direction in space Vectors Examples of Vector Quantities:  Displacement  Velocity  Acceleration  Force

5 Why vectors? Engineering – forces need to balance when constructing a bridge so that it doesn’t fall Navigation – Wind or currents change the direction and speed of planes and boats

6 Notation Vectors are written with a half arrow on top or as a bold lowercase letter such as u, v, or w

7 4 ways to represent a vector A B Initial point (x 1, y1)y1) Terminal point (x 2, y2)y2) 1. 2 points – initial point and terminal point The initial point is called the head and has no arrow The terminal point is called the tail and has an arrow showing direction

8 Example Draw a vector with initial point (2, 3) and terminal point (-5, 7)

9 4 ways to represent a vector 2. Component form To find component form given 2 points: terminal point minus initial point Has around it (versus ( ) for points)

10 Example Find the component form a vector with initial point (-1, 5) and terminal point (9, -2)

11 4 ways to represent a vector 3. Linear combination It has no commas or brackets (x 2 -x 1 )i + (y 2 -y 1 )j The letter i represents the x portion and The letter j represents the y portion

12 Examples Find the linear combination form a vector with initial point (2, 5) and terminal point (-3, -2) Write in linear combination form

13 4 ways to represent a vector 4. Magnitude and direction 20 mph at 125 o 40 N at 25 o north of west

14 North = +South = -East = + West = - y x + + - - 0 o East 90 o North West 180 o 270 o South 360 o

15 0 O East 90 O North West 180 O 270 O South 360 O +x +y - x - y 120 O -240 O 30 O West of North 30 O Left of +y 60 O North of West 60 O Above - x MEASURING THE SAME DIRECTION IN DIFFERENT WAYS

16 Examples Draw a vector with magnitude of 20 ft at 185 o Draw a vector with magnitude 10 ft at 30 o south of west Draw a vector with magnitude 35 at 25 o east of south

17 To find component form given magnitude and direction Use trig!! Each vector is made up of an x component and a y component To find the x component, multiply the magnitude by cos θ To find the y component, multiply the magnitude by sin θ or (Acosθ)i + (Asinθ)j A θ Acosθ Asinθ

18 Example Find the component form of a vector with magnitude of 30 mph at 40 o

19 Example Find the component form of a vector with magnitude of 120 at 25 o west of north

20 To find magnitude and direction given component form Notation for magnitude is If you know the x and y components, the magnitude can be found using the pythagorean theorem!! Direction is found using trig! θ y x

21 Where is the vector? You need to figure out what quadrant a vector is in because your calculator only gives you answers in the 1 st (positive) or 4 th quadrant (negative) If the vector is in the 1 st quadrant, leave the answer your calculator gives you alone If the vector is in the 2 nd or 3 rd quadrant, add 180 to your answer If the vector is in the 4 th quadrant, add 360 to your answer

22 Example – Find the magnitude and direction angle of P Q (-3,4) (-5,2) component form of The magnitude is What quadrant is it in??3 rd (so we will add 180) The direction is:

23 Example The component form is The magnitude is Find the direction, and magnitude if initial point is (1,11) and terminal point is (9,3) The direction is

24 You can add and subtract vectors – this changes their magnitude and direction Vector Operations To find the resultant, simply add or subtract the components You can also multiply vectors by a scalar (a number) – this changes their magnitude but not their direction (if you multiply by negative, it reverse direction) The answer is called the resultant To multiply – distribute the number to both components

25 v u u+v u + v is the resultant vector. Adding Vectors Graphically To add vectors graphically, position them so the initial point of one is connects with the terminal point of the other, the diagonal is the resultant vector

26 v w Find v+w v–w 2v 4u – 7v algebraically and graphically Example

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