Presentation is loading. Please wait.

Presentation is loading. Please wait.

Review and Announcements Tatiana Brusentsova is the Teaching Assistant/Grader. My office hours will take place in Room 402 of the Physics Department. Make.

Published byMorris McKenzie Modified over 8 years ago

Similar presentations

Presentation on theme: "Review and Announcements Tatiana Brusentsova is the Teaching Assistant/Grader. My office hours will take place in Room 402 of the Physics Department. Make."— Presentation transcript:

1 Review and Announcements Tatiana Brusentsova is the Teaching Assistant/Grader. My office hours will take place in Room 402 of the Physics Department. Make sure you are using WebAssign by the end of the week! Homework #1 due Monday.

2 Chapter 2: One-Dimensional Kinematics Outline 2-1Position, Distance, and Displacement 2-2Average Speed and Velocity 2-3Instantaneous Velocity 2-4Acceleration 2-5Motion with Constant Acceleration 2-6Applications of the Equations of Motion 2-7Freely Falling Objects

3 Major Concepts Position, distance and displacement Speed and velocity –Average –Instantaneous –Constant Acceleration –Average –Instantaneous –Constant Graphs of position versus time, velocity versus time, and acceleration versus time Equations of motion with constant acceleration Free fall Warning Areas: Speed vs. Velocity Distance vs. Displacement Constant Velocity vs. Constant Acceleration

4 Distance and displacement Displacement is the net change in position from beginning to end of a journey Distance is the total amount of change in position, including re-tracing your steps on the journey. Physics uses common terms in technical ways.

5 Figure 2-2 One-Dimensional Coordinates Try some examples…

6 Speed and Velocity Speed is the distance traveled in a period of time. It is a “scalar” (number only). Velocity is the displacement in a period of time. It is a “vector” (number and direction).

7 Distance and displacement What is the displacement at 1s, 2s, 3s, 4s? What is the distance traveled at 1, 2, 3, 4s?

8 Conceptual Checkpoint 2-1 Average Speed The AVERAGE SPEED is the total distance traveled, divided by the total time of travel. We’ll do this “by the numbers”, but first, let’s see what your instincts tell you.

9 What is the average speed? 1.Greater than 40 mph. 2.Less than 40 mph. 3.Equal to 40 mph.

10 What is the average speed? 1.Greater than 40 mph. 2.Less than 40 mph. 3.Equal to 40 mph. Problem solving: -draw a picture -label all quantities -identify “unknown” -write down relationships (formulas), working backwards from unkown to known -find a formula for the unknown -plug in the numbers Etc.

11 Example 2-2 Sprint Training Compare the average speed, and average velocity.

12 Figure 2-4 Motion Along the X Axis Represented with an x-Versus-t Graph

13 Figure 2-5a Average Velocity on an x-Versus-t Graph

14 Figure 2-6 Constant Velocity on an x-Versus-t Graph

15 Figure 2-7 Instantaneous Velocity

16 Figure 2-8 Graphical Interpretation of Average and Instantaneous Velocity

17 Our first formula! If the velocity is constant, then the average velocity is the same as the instantaneous velocity. Rearranging:

18 Acceleration Acceleration is the change in velocity per unit time The average acceleration is the change in velocity per change in time. It is a vector quantity.

19 Figure 2-9 v-Versus-t Plots for Motion with Constant Acceleration

20 Our second formula! For constant acceleration… Velocity versus time produces a straight line graph, if acceleration is constant.

21 Figure 2-10 Graphical Interpretation of Average and Instantaneous Acceleration

22 Example 2-3 An Accelerating Train

23 Cars Accelerating or Decelerating which picture matches which graph? 1 2 3 4

24 Figure 2-13a The Average Velocity Definition: change in velocity divided by time. Special case: Constant acceleration

25 Example 2-6 Put the Pedal to the Metal

26 Figure 2-16 Velocity as a Function of Position for the Ranger in Example 2-8 Notice that ½ the speed is lost in last ¼ of stopping distance. CONSTANT DECELERATION

27 Example 2-9a Catching a Speeder Q: How many mph?

28 Table 2-4 Constant-Acceleration Equations of Motion Variables RelatedEquationNumber Velocity, time, acceleration v = v 0 + at2-7 Initial, final, and average velocity v av = ½(v 0 + v)2-9 Position, time, velocity x = x 0 + ½(v 0 + v)t2-10 Position, time, acceleration x = x 0 + v 0 t + ½ at 2 2-11 Velocity, position, acceleration v 2 = v 0 2 + 2a(x – x 0 ) = v 0 2 + 2a  x 2-12

29 Figure 2-22 Problem 2-3

30 Figure 2-25 Problem 2-17

31 Figure 2-26 Problem 2-21 Find the average velocity for each segment of the “walk”, and for the total “walk”. Now, compare DISPLACEMENT and DISTANCE. Compare, average VELOCITY and SPEED.

32 Figure 2-28 Problem 2-32 What is the average acceleration for each segment, what is the average acceleration for the whole motorcycle ride?

33 Figure 2-29 Problem 2-33 CAREFUL! What is the displacement for each segment of the graph shown? Problem solving: 1.Draw a picture (given) 2.What are they asking for? 3.What is given? 4.What are the mathematical relationships?

Download ppt "Review and Announcements Tatiana Brusentsova is the Teaching Assistant/Grader. My office hours will take place in Room 402 of the Physics Department. Make."

Similar presentations

Motion in One Dimension

Motion in One Dimension
Physics: Principles with Applications, 6th edition

Physics: Principles with Applications, 6th edition
Kinematics: What is velocity and acceleration?

Kinematics: What is velocity and acceleration?
Chapter 2: One-Dimensional Kinematics Outline 2-1Position, Distance, and Displacement 2-2Average Speed and Velocity 2-3Instantaneous Velocity 2-4Acceleration.

Chapter 2: One-Dimensional Kinematics Outline 2-1Position, Distance, and Displacement 2-2Average Speed and Velocity 2-3Instantaneous Velocity 2-4Acceleration.
Department of Physics and Applied Physics 95.141, F2010, Lecture 2 Physics I 95.141 LECTURE 2 9/8/10 HW1 Due This Friday by 5 p.m. www.masteringphysics.com.

Department of Physics and Applied Physics , F2010, Lecture 2 Physics I LECTURE 2 9/8/10 HW1 Due This Friday by 5 p.m.
2009 Physics 2111 Fundamentals of Physics Chapter 2 1 Fundamentals of Physics Chapter 2 Motion Along A Straight Line 1.Motion 2.Position & Displacement.

2009 Physics 2111 Fundamentals of Physics Chapter 2 1 Fundamentals of Physics Chapter 2 Motion Along A Straight Line 1.Motion 2.Position & Displacement.
One Dimensional Motion – Velocity & Acceleration Lecturer: Professor Stephen T. Thornton.

One Dimensional Motion – Velocity & Acceleration Lecturer: Professor Stephen T. Thornton.
Physics 2011 Chapter 2: Straight Line Motion. Motion: Displacement along a coordinate axis (movement from point A to B) Displacement occurs during some.

Physics 2011 Chapter 2: Straight Line Motion. Motion: Displacement along a coordinate axis (movement from point A to B) Displacement occurs during some.
Graphical Analysis of Motion.

Graphical Analysis of Motion.
Physics Montwood High School R. Casao

Physics Montwood High School R. Casao
Motion in One Dimension

Motion in One Dimension
A Mathematical Model of Motion

A Mathematical Model of Motion
Topic 2.1 Kinematics _Uniform Motion

Topic 2.1 Kinematics _Uniform Motion
© 2014 Pearson Education, Inc. This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.

© 2014 Pearson Education, Inc. This work is protected by United States copyright laws and is provided solely for the use of instructors in teaching their.
Scalar (Dot) Product. Scalar Product by Components.

Scalar (Dot) Product. Scalar Product by Components.
C H A P T E R 2 Kinematics in One Dimension. Mechanics The study of Physics begins with mechanics.

C H A P T E R 2 Kinematics in One Dimension. Mechanics The study of Physics begins with mechanics.
Kinematics in One Dimension. Mechanics Kinematics (Chapter 2 and 3) The movement of an object itself Concepts needed to describe motion without reference.

Kinematics in One Dimension. Mechanics Kinematics (Chapter 2 and 3) The movement of an object itself Concepts needed to describe motion without reference.
Unit One The Newtonian Revolution Principia: Three Laws of motion Law of universal gravitation.

Unit One The Newtonian Revolution Principia: Three Laws of motion Law of universal gravitation.
Mechanics Unit 5: Motion and Forces 5.6 Motion in one Dimension - Speed and Velocity, Acceleration...

Mechanics Unit 5: Motion and Forces 5.6 Motion in one Dimension - Speed and Velocity, Acceleration...
Displacement Speed and Velocity Acceleration Equations of Kinematics with Constant A Freely Falling Bodies Graphical Analysis of Velocity and Acceleration.

Displacement Speed and Velocity Acceleration Equations of Kinematics with Constant A Freely Falling Bodies Graphical Analysis of Velocity and Acceleration.

Similar presentations

Ads by Google