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1-D Vectors 1-D Vectors.

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Presentation on theme: "1-D Vectors 1-D Vectors."— Presentation transcript:

1 1-D Vectors 1-D Vectors

2 Scalar vs Vector Which of these is NOT a vector measurement?
Displacement Acceleration Speed Mass Two of these None of these

3 Velocity Vector The rabbit and the tortoise are running as shown. What would be the appropriate velocity vectors for each animal (relative to each other)? A. B. C. D.

4 Adding Vectors in 1-D What is the resultant of these two vectors? A.) 4 B.) 4 C.) 8 D.) 8 E.) None of these 2 6 + =

5 Adding Vectors in 1-D What is the resultant of these two vectors? (Up is the positive direction) A.) +2 B.) - 2 C.) +18 D.) -18 E.) None of these 8 10 + =

6 Adding Vectors in 1-D What is the resultant acceleration of 2m/s2 in the +x direction and 8m/s2 in the -x direction? A. There is no resultant 10m/s2 in the –x direction 6m/s2 in the –x direction 6m/s2 in the +x direction 4m/s2 in the -x direction

7 Adding Vectors in 1-D What is the resultant displacement of these two vectors? (to the right is the positive direction) A.) +6 m B.) – 6 m C.) 0 m D.) None of these 3m + =

8 Resultant Velocity A jet plane is able to fly at 200m/s when there is no wind. If there is a wind blowing towards the East at 40m/s and the plane also flying East, what is the velocity of the plane relative to someone on the ground? 200m/s East 160m/s East 240m/s East 204m/s East None of these

9 Resultant Velocity A jet plane is able to fly at 200m/s when there is no wind. If there is a wind blowing towards the West at 40m/s and the plane flying East, what is the velocity of the plane relative to someone on the ground? 200m/s East 160m/s East 240m/s East 204m/s East None of these

10 Resultant Velocity You are able to swim at 3m/s in a swimming pool (still water). If you jump in a river with a current of 4m/s and swam upstream to the current how fast will you be going according to someone standing on the bank? 1 m/s upstream 1 m/s downstream 3 m/s upstream 7 m/s upstream None of these

11 Adding Vectors in 1-D What is the resultant of these two vectors? A.) 4 B.) 4 C.) 8 D.) 8 E.) None of these 2 6 - =

12 Question 3-1-5 A A = 12m/s in the +y direction, B = 5m/s in the – y direction? What is B – A = ? A. 17m/s in the +y direction B. 17m/s in the –y direction C. 7m/s in the +y direction 7m/s in the –y direction There is no resultant B

13 Adding Vectors in 1-D What is the resultant of these two vectors? (to the right is the positive direction) A.) +6m B.) – 6m C.) 0 D.) None of these 3m - =

14 Change in Velocity A squirrel initially has a velocity of +3m/s, gets scared and now has a velocity of –2m/s. What was the squirrel’s change in velocity? – 5 m/s + 5 m/s – 1 m/s +1 m/s

15 Trig Review

16 Trig Review Calculate the value of the variable: (make sure your calculator is in DEGREE mode) A.) 13.9 B.) C.) 12 D.) 1.13 E.) None of these

17 Trig Review Calculate the value of the variable: (make sure your calculator is in DEGREE mode) A.) 3.21 B.) 3.83 C.) 4.2 D.) 40.3 E.) None of these

18 Trig Review Calculate the value of the variable: (make sure your calculator is in DEGREE mode) A.) 33⁰ B.) 57⁰ C.) 41⁰ D.) 49⁰ E.) None of these

19 Trig Review Calculate the value of the variable: (make sure your calculator is in DEGREE mode) A.) 1.28 B.) 2.72 C.) 1.4 D.) 83 E.) None of these

20 Trig Review Calculate the value of the variables: (make sure your calculator is in DEGREE mode) A.) 53⁰ B.) 37⁰ C.) 49⁰ D.) 41⁰ E.) None of these

21 Trig Review Calculate the value of the variables: (make sure your calculator is in DEGREE mode) A.) 1.5 B.) 3.71 C.) 9.9 D.) 0.62 E.) None of these

22 Trig Review Calculate the value of the variable: (make sure your calculator is in DEGREE mode) A.) 4.68 B.) 5.2 C.) 10.5 D.) 9.42 E.) None of these

23 Trig Review Calculate the value of the variable: (make sure your calculator is in DEGREE mode) A.) 56⁰ B.) 34⁰ C.) 42⁰ D.) 48⁰ E.) None of these

24 Trig Review Calculate the value of the variable: (make sure your calculator is in DEGREE mode) A.) 2.07 B.) 0.13 C.) 1.7 D.) 7.73 E.) None of these

25 Lesson 2 – 2-D Vectors

26 Drawing Vectors Which vector illustrates 4m/s at 60° above the +x axis? A. B. C. D. E. Impossible, it is a velocity not a distance.

27 Drawing Vectors Which vector illustrates 8m/s2 at 20° West of North? A. B. C. D. E. Impossible, it is an acceleration not a distance.

28 Drawing Vectors Which vector illustrates -2m at 70° from the +x axis? A. B. C. D.

29 Head to Tail What does the Resultant look like for adding these two vectors? W = 150° + T = 6 240° A. B. C. D.

30 Head to Tail What does the Resultant look like for adding these two vectors? P = 340° + N = 18 20° A. B. C. D.

31 Head to Tail What does the Resultant look like for subtracting these two vectors? P = 340° ̶ N = 18 20° A. B. C. D.

32 Three vectors are as shown. Which vector is the vector ?

33 Resultant What is the resultant of 3m/s in the negative -x direction, and 4m/s in the positive +y direction? A. 53° …….. B. 53° ……………………. C. 37° …………………………………….. D. 37° ……….. E. 53°……………………….

34 Resultant What is the resultant of 12m/s2 in the negative -x direction, and 5m/s2 in the negative -y direction? A. 67° from –x axis B. 23° from the –y axis C. 67° from the – y axis D. 23° from the –x axis E. 23° from the –x axis

35 Components What are the x and y components of
above the +x axis? x = y = B. x = y = 1 4 x = 1 y = 1 D. x = y = 1 3

36 Components What are the x and y components of
above the -x axis? x = y = B. x = − y = x = − y = − D. x = y = − 1 2

37 Components What are the x and y components of
above the horizon? x = 4.53m/s y = 2.11m/s B. x = 0.91m/s y = 0.42m/s x = 2.11m/s y = 4.53m/s D. x = 3m/s y = 2m/s E. x = 5m/s y = 25m/s

38 Components What are the x and y components of
to the right of the vertical? A. x = 3.91m y = 5.8m B. x = -3.91m y = 5.8m C. x = 5.8m y = 3.91m D. x = 3.91m y = -5.8m E. x = -5.8m y = 3.91m

39 “change in…” What is the direction of ∆𝑣 ? A. B. C. D.

40 “change in…” What is the direction of 𝑣 𝑎𝑣𝑔 ? 𝑟 𝑜 = 𝑟 𝑓 = A. B. C. D. E. can’t be determined without time

41 Resultant Velocity You are able to swim at 3m/s in a swimming pool (still water). If you jump in a river with a current of 4m/s and swim always pointing perpendicular to the current how fast will you be going according to someone standing on the bank? 1 m/s 3 m/s 5 m/s 7 m/s None of these

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