VECTORS

1. VECTORS Pre-AP Physics

2. SCALAR A SCALARquantity is any quantity in physics that has MAGNITUDE ONLY Number value with units

3. VECTOR A VECTORquantity is any quantity in physics that has BOTHMAGNITUDE and DIRECTION

4. Vector quantities can be identified by bold type with an arrow above the symbol. V = 23 m/s NE

5. Vectors are represented by drawing arrows

6. The length and direction of a vector should be drawn to a reasonable scale size and show its magnitude 10 km 20 km

7. VECTOR APPLICATION • ADDITION: When two (2) vectors point in the SAME direction, simply add them together. • When vectors are added together they should be drawn head to tail to determine the resultant or sum vector. • The resultant goes from tail of A to head of B.

8. Let’s Practice A man walks 46.5 m east, then another 20 m east. Calculate his displacement relative to where he started. + 20 m, E 46.5 m, E 66.5 m, E

9. VECTOR APPLICATION SUBTRACTION: When two (2) vectors point in the OPPOSITEdirection, simply subtract them.

10. Let’s Practice some more…. 46.5 m, E - 20 m, W 26.5 m, E A man walks 46.5 m east, then another 20 m west. Calculate his displacement relative to where he started.

11. Graphical Method Aligning vectors head to tail and then drawing the resultant from the tail of the first to the head of the last.

12. Graphical Vector Addition A + B Step 1 – Draw a start point Step 2 – Decide on a scale Step 3 – Draw Vector A to scale Step 4 – Vector B’s tail begin at Vector A’s head. Draw Vector B to scale. Step 5 – Draw a line connecting the initial start point to the head of B. This is the resultant.

14. NON CO-LINEAR VECTORS When two (2) vectors are PERPENDICULARto each other, you must use the PYTHAGOREAN THEOREM

15. Let’s Practice A man travels 120 km east then 160 km north. Calculate his resultant displacement. FINISH the hypotenuse is called the RESULTANT 160 km, N VERTICAL COMPONENT START 120 km, E HORIZONTAL COMPONENT

16. WHAT ABOUT DIRECTION? In the example, DISPLACEMENTisasked for and since it is a VECTORquantity, we need to report its direction. N W of N E of N N of E N of W N of E E W S of W S of E NOTE: When drawing a right triangle that conveys some type of motion, you MUST draw your components HEAD TO TOE. W of S E of S S

17. Directions • There is a difference between Northwest and West of North

18. NEED A VALUE – ANGLE! Just putting N of E is not good enough (how far north of east ?). We need to find a numeric value for the direction. To find the value of the angle we use a Trig function called TANGENT. 200 km 160 km, N q N of E 120 km, E So the COMPLETE final answer is : 200 km, 53.1 degrees North of East

19. What are your missing components? Suppose a person walked 65 m, 25 degrees East of North. What were his horizontal and vertical components? The goal: ALWAYS MAKE A RIGHT TRIANGLE! To solve for components, we often use the trig functions sine and cosine. H.C. = ? V.C = ? 25˚ 65 m

20. Example A bear, searching for food wanders 35 meters east then 20 meters north. Frustrated, he wanders another 12 meters west then 6 meters south. Calculate the bear's displacement. 23 m, E - = 12 m, W - = 14 m, N 6 m, S 20 m, N 14 m, N 35 m, E R q 23 m, E The Final Answer: 26.93 m, 31.3 degrees NORTH of EAST

21. Example A boat moves with a velocity of 15 m/s, N in a river which flows with a velocity of 8.0 m/s, west. Calculate the boat's resultant velocity with respect to due north. 8.0 m/s, W 15 m/s, N Rv q The Final Answer : 17 m/s, @ 28.1 degrees West of North

22. Example A plane moves with a velocity of 63.5 m/s at 32 degrees South of East. Calculate the plane's horizontal and vertical velocity components. H.C. =? 32˚ V.C. = ? 63.5 m/s

23. Example A storm system moves 5000 km due east, then shifts course at 40 degrees North of East for 1500 km. Calculate the storm's resultant displacement. 1500 km V.C. 40 5000 km, E H.C. 5000 km + 1149.1 km = 6149.1 km R 964.2 km q The Final Answer: 6224.2 km @ 8.92 degrees, North of East 6149.1 km