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Vectors and Projectile Motion Chapter 3. Adding Vectors When adding vectors that fall on the same line, using pluses and minuses is sufficient. When dealing.

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Presentation on theme: "Vectors and Projectile Motion Chapter 3. Adding Vectors When adding vectors that fall on the same line, using pluses and minuses is sufficient. When dealing."— Presentation transcript:

1 Vectors and Projectile Motion Chapter 3

2 Adding Vectors When adding vectors that fall on the same line, using pluses and minuses is sufficient. When dealing with two dimensions, vector addition must be used. A complete answer includes magnitude, units, and a direction usually indicated by an angle.

3 Right Angle Vector Addition C=resultant, means sum of two vectors. 2m 4m =4.47m  c In this case, Pythagorean theorem will solve for c. In order to find , trig must be used. It is usually best to use the given sides, rather than the calculated side. =63.4 o If you walk 2m north and then 4m east, what is your displacement?

4 Steps for Adding Perpendicular Vectors Line vectors up head to tail. Draw the resultant. Find the resultant length using the Pythagorean theorem. Use trig to find the angle. Ensure that the angle measure has a distinct reference point, either by words or a picture.

5 Practice Problem 5m/s 10m/s A sailboat experiences a 5m/s wind to the east while traveling 10m/s downstream. Find the resulting net velocity 5m/s 10m/s

6 Adding more than two vectors Vectors can be added in any order. Subtracting a vector is the same as adding a vector that is the same length, but going the exact opposite direction. When drawing a picture, vectors may be rearranged into any order as long as their orientation is maintained.

7 Example

8 Practice What is the total displacement of the motion, assuming each block is 1m long?

9 Vector direction Degrees on the unit circle Start on the positive x and move CCW for positive degrees and CW for negative degrees. Examples, 40m @ 217°, 34m/s @ -73° Compass direction 27° S of W Southwest would indicate a 45° Earth and space sciences use a system where north is 0° and one always has a positive angle and proceeds CW around the compass.

10 Adding vectors with random orientation Components-A set of vectors that have a sum equal to a given vector. Usually most useful to have components perpendicular to each other. Breaking up a vector, called resolution, is the exact opposite of adding two perpendicular vectors to find a resultant. Usually, components are along the x and y axis. x y

11 Component practice 50m@200°32m@67° 14m/s@-112°6m/s@-300°

12 Steps for solving vector problems Graphically represent the system to give yourself a check for your answer. Draw each vector individually. Using trig, find the x and y components of each vector. Add all the x components together and add all the y components together. Make a new diagram using the total x component and the total y component. Draw in the resultant and label a reference angle. Use the Pythagorean theorem and trig to find the resultant and angle

13 Example Problem 9m, 45 o up from the horizontal 11m, 18 o down from the horizontal

14 Splitting the Triangles Up y1y1 9m, 45 o up from the horizontal x1x1 45 o 11m, 18 o down from the horizontal x2x2 y2y2 18 o

15 y1y1 x1x1 45 o x2x2 y2y2 18 o

16 Working with the first triangle 9m, 45 o up from the horizontal x1x1 45 o y1y1

17 Working with the second triangle 11m, 18 o down from the horizontal x2x2 y2y2 18 o

18 Putting everything together x tot y tot c 

19 Practice Find the resultant of the following vectors: 450m @ 20 o 360m @ 300 o 290m @ 189 o 405m @ 115 o

20 Projectile Motion

21 Horizontal and Vertical Motion

22 Things to remember for 2D motion Vertical and horizontal motion are independent. When something is traveling through the air, ignore the effects of air resistance. There is nothing pushing or pulling a projectile horizontally, therefore a x =0. For vertical motion, gravity is causing the vertical acceleration, so a y =-9.8m/s 2. We will assume that projectiles landing at a height different from their initial height are always launched horizontally. Therefore, any initial velocity is an x piece. There is no y component for initial velocity.

23 Horizontal Components a=0

24 Vertical Components V iy =0 a=g

25 Cliff Problems A car drives off a 100m cliff at a speed of 47m/s. What is: The time it takes to hit the ground? It’s horizontal distance from the base of the cliff? It’s final velocity?

26 Identify Vertical and Horizontal Components Horizontal v i =47m/s v f =47m/s a=0 t=? x=? Vertical a=g=-9.8m/s 2 v i =0 y=100m t=? v f =?

27 Part A Use y pieces because there is not enough information to solve for t using x components. Since the car stops moving horizontally at the same time it stops moving vertically, the t found using the y components can be used for the x components as well.

28 Part B

29 Part C The car is going both down and over at the end so v f has both x and y components. v fx = v ix v fy must be calculated.

30 Part C Continued Put x and y components together and solve for both resultant and angle. c v fx v fy 

31 Practice Problems A ball is thrown horizontally from the roof of a building 56m tall and lands 45m away from the base. What was the ball’s initial speed? An onion runs off of a building at a speed of 22.2m/s and lands 36.0m from the base of the building. How tall is the building?

32 Starting and Ending at the Same Height

33 Practice Problem A water balloon is shot from a slingshot at an angle of 21 o and with a velocity of 16m/s. What is: The horizontal range? The time it’s in the air? It’s maximum height?

34 More Practice A long jumper leaves the ground at 30 o and travels 7.8m. How long is he in the air? A pilot drops a flaming bag of poo from a plane in an attempt to hit the roof of the high school. If the plane is traveling at 160km/hr and is 160m above the ground, how far before he is directly overhead should the pilot drop the bag?


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