1. Warm Ups

2. Mini Quiz: In PEN w/ no cross outs! 1)At what position is the vertical velocity zero? 2)What is the direction of the acceleration of the rock at point B? a)Upward b)Downward c)In the direction of point C d)In the direction of point A

3. Mini Quiz: In PEN w/ no cross outs! A stone is thrown horizontally from the top of a 25.00-m tall cliff. If the stone has a horizontal velocity of 15m/s, how far horizontally from the edge of the cliff will the stone land? 5) What is the first thing you need to calculate to solve this problem? a)Horizontal velocity b)Vertical velocity c)Drop time d)Height of the cliff 3) For an object that is accelerating, the velocity vs. time graph has what type of “shape” a)Sloped Line b)Curve c)Flat line d)I don’t know 4) For an object that is accelerating, the position vs time graph has what type of “shape” a)Sloped Line b)Curve c)Flat line d)I don’t know

4. Mini Quiz: In PEN w/ no cross outs! 6) Which of the following v vs. t graphs shows an object moving to rest? 7) Jordon runs at 30m/s. Alicia bikes at 60m/s. If they both travel for 5 seconds, then Alicia will travel: a)Twice as far b) The same distance c) Four times as far d) Half as far A v m/s (s) 0 v m/s (s) 0 v m/s (s) 0 v m/s (s) 0 BCD

5. Mini Quiz: In PEN w/ no cross outs! 8) Which interval is the object not moving? 9) Which interval is the object accelerating? 10) Which interval is the object moving backward? a)I -II b) II-III c) III-IV d) IV-V

6. Mini Quiz: In PEN w/ no cross outs! 11) Which correctly shows the resultant vector of the following two velocities: a)b)c)d) Zero 12) What is the x component of the following vector: a) 8.66b) 51.96N c) 5.0Nd) 29.54N 30° 60° 10N

7. Mini Quiz: In PEN w/ no cross outs! 13) What is the y component of the applied force? a) 17.2Nb) 21.7N c) 25Nd) 12.5N 14) What is the x component of the following vector: a) 5.0Nb) 9.6N c) 13.0Nd) 28.9N 30° 25N 15N

8. Announcements Hello Lexa and Johnny (and any other student viewing this). Use this powerpoint to catch up on what you missed!

9. Forces Introduction New Sheet: Lets look at what we know so far….. Go through side 1 together (This is the Forces_Notes 4)…also posted on my Wiki

10. Forces WHITEBOARDS For each of the following questions, determine the net force. You must SHOW YOUR WORK for each question Y NET FORCE Vector X

11. For the following slides: 1) Find the NET FORCE ▫ This means you find the sum of the forces acting on the object. Watch out for the direction. Left = (-) and right = (+). Up = (+), down = (-)

12. Forces WHITEBOARDS

19. The following diagrams have forces at an ANGLE Forces at an angle have x and y components X component = Fcos(θ) Y component = Fsin(θ) Example: X = 25cos(30) Y = 25sin(30) 30 25N

20. Forces WHITEBOARDS 30 30N 15N

21. Forces WHITEBOARDS 45 50N 45 50N

22. Forces WHITEBOARDS 30 40N 25N 34.64N

23. Forces WHITEBOARDS 30 20N

24. Forces Introduction But Physics is not just imaginary forces with arrows..... Often force problems involve real objects, with actual forces acting on them. We use FREE BODY DIAGRAMS to show these forces

25. Forces Introduction W Weight (Gravity): Always directly downward. W = mg m = mass g = gravity FNFN Normal: A surface pushes perpendicular against an object. F N is Equal and Opposite of the sum of all downward forces FfFf Friction: A force that prevents/goes against (dampens) motion Will change depending on the surface. FTFT Tension: A PULL in the direction of a rope or a wire Pulled Object: Value will be given Hanging: F T is Equal and Opposite of the sum of all downward forces F Applied Force: A force can be a push or pull applied to an object Fx = Fcos(θ) Fy = Fsin(θ) * θ = Angle from the horizontal*

26. Forces Introduction How to Solve Equilibrium Problems: 1) Add up the X forces (including x components) 2) Add up the Y forces (including y components) 3) Find the RESULTANT VECTOR.

27. Forces Introduction A man pulls a 300kg box at CONSTANT VELOCITY across the floor. He applies a 600N force at an angle of 30°. What is the FRICTION FORCE? Include a magnitude and direction (left or right). Free Body:

28. Forces Introduction: Example 2 (in your notes..1 page) 1) A person pulls on a 50 kg desk with a 200N force acting at 30° angle above the horizontal. The desk does not budge. a. Determine the value of the frictional force b. Determine the value of the normal force.