1 / 38

Devil physics The baddest class on campus Pre-DP Physics

Devil physics The baddest class on campus Pre-DP Physics. SC.912.P.12.2: Analyze the motion of an object in terms of its position, velocity, and acceleration (with respect to a frame of reference) as functions of time. Giancoli Chapter 2: Describing motion: kinematics in one dimension.

galvin
Download Presentation

Devil physics The baddest class on campus Pre-DP Physics

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Devil physicsThe baddest class on campusPre-DP Physics

  2. SC.912.P.12.2: Analyze the motion of an object in terms of its position, velocity, and acceleration (with respect to a frame of reference) as functions of time. Giancoli Chapter 2: Describing motion: kinematics in one dimension

  3. 2-1: Reference Frames and Displacement 2-2: Average Velocity 2-3: Instantaneous Velocity Giancoli Chapter 2: Describing motion: kinematics in one dimension

  4. Objectives • Know the meaning of the terms mechanics, kinematics and dynamics • Know the difference between distance and displacement and how to measure each • Know the difference between average speed and average velocity • Understand the concept of instantaneous velocity

  5. Objectives • Calculate average speed for a given distance and time • Calculate average velocity for a given displacement and time

  6. Introductory Video: Displacement, Velocity and Acceleration

  7. Mechanics • The study of the motion of objects and the related concepts of force and energy. • Galileo Galilee (1564-1642) • Sir Isaac Newton (1642-1727) • Building blocks of all areas of modern physics

  8. Mechanics • Two major divisions: • Kinematics: description of how things move • Dynamics: force and why things move the way they do • Chapters 2 and 3 deal with kinematics

  9. Translational Motion • Objects that move without rotating • Moves along a straight-line path • One-dimensional motion

  10. Translational Motion

  11. Translational Motion

  12. Frame of Reference • The point from which you are viewing something • The point from which you are measuring something • We normally place a set of coordinate axes (a coordinate plane) with the origin resting on the reference point

  13. Distance vs. Displacement • Distance: measurement of the entire length travelled without respect to direction • Displacement: change in position of an object, or, how far the object is from its original position and in what direction • Includes both magnitude and direction

  14. Distance vs. Displacement • Pike’s Peak Marathon Pikes Peak 14,110 ft 7,610 ft 1.44 mi Manitou Springs 6,500 ft

  15. Distance vs. Displacement • Pike’s Peak Marathon Distance: 14.1 mi Pikes Peak 14,110 ft 7,610 ft 1.44 mi Manitou Springs 6,500 ft

  16. Distance vs. Displacement • Pike’s Peak Marathon Distance: 14.1 mi Displacement Pikes Peak 14,110 ft 7,610 ft 1.44 mi θ Manitou Springs 6,500 ft

  17. Scalar vs. Vector Distance: 14.1 mi Displacement Pikes Peak 14,110 ft 7,610 ft 1.44 mi θ Manitou Springs 6,500 ft

  18. Displacement • “The change in position is equal to the second position minus the first position” • Example: You are standing on a number line at 23 and suffer a blow to the head. When you wake up, you are laying at -17. What was your displacement?

  19. Displacement • Example: You are standing on a number line at 23 and suffer a blow to the head. When you wake up, you are laying at -17. What was your displacement? • Your displacement is 40 to the left

  20. Speed • Distance traveled in a given time interval • Distance per unit time • 60 mph, 35 m/s • Vector or scalar?

  21. Average Speed • Distance travelled divided by time elapsed • Avg. speed = distance travelled/time elapsed

  22. Average Velocity • Displacement divided by time elapsed • Avg. velocity = displacement/time elapsed

  23. Speed vs. Velocity Distance: 14.1 mi Displacement Pikes Peak 14,110 ft 7,610 ft 1.44 mi θ Manitou Springs 6,500 ft

  24. Speed vs. Velocity • Can the magnitude of the velocity ever be more than speed for any given timed movement of a body?

  25. Speed vs. Velocity • Can the magnitude of the velocity ever be more than speed for any given timed movement of a body? Distance equals displacement Distance is greater than or equal to displacement but never less than displacement

  26. Speed vs. Velocity • Can the magnitude of the velocity ever be more than speed for any given timed movement of a body? • Since distance is always greater than or equal to displacement • And since speed is distance/time • And since velocity is displacement/time • Speed will always be greater than or equal to velocity

  27. Avg. Velocity: The Equation

  28. Average Velocity of a Car

  29. Average Velocity – Air Track

  30. Instantaneous Velocity • Velocity at a split second of time • The average velocity of an infinitesimally short time interval

  31. Instantaneous Velocity: The Equation

  32. Instantaneous Velocity – Air Track

  33. Instantaneous Velocity • Instantaneous speed will always equal the magnitude of the instantaneous velocity. Why?

  34. Instantaneous Velocity • Instantaneous speed will always equal the magnitude of the instantaneous velocity. Why? • When distance/displacement become infinitesimally small, their difference also becomes infinitesimally small, approaching zero

  35. Objectives • Know the meaning of the terms mechanics, kinematics and dynamics • Know the difference between distance and displacement and how to measure each • Calculate average speed for a given distance and time • Calculate average velocity for a given displacement and time

  36. Objectives • Know the difference between average speed and average velocity • Understand the concept of instantaneous velocity

  37. Questions?

  38. Homework • #1-11

More Related