Announcements: Questions about WebAssign? My office hours: M, W, F 1:00-2:00, Olin 215 Labs start next week  Bring ThinkPads to lab.

Slides:

Advertisements

Similar presentations

Velocity - The rate at which the position of an object changes with time in a particular direction. There are two ways we discuss velocity. Average velocity.

Advertisements

Warm Up A particle moves vertically(in inches)along the x-axis according to the position equation x(t) = t4 – 18t2 + 7t – 4, where t represents seconds.

Kinematics – describes the motion of object without causes that leaded to the motion We are not interested in details of the object (it can be car, person,

Monday, Aug. 30, 2004PHYS , Fall 2004 Dr. Jaehoon Yu 1 PHYS 1443 – Section 003 Lecture #3 Monday, Aug. 30, 2004 Dr. Jaehoon Yu 1.One Dimensional.

Chapter 2: Kinematics in one Dimension

Kinematics Goals: understand graphs of a) position versus time, b) velocity versus time.

Physics 101: Lecture 5, Pg 1 Lecture 5: Introduction to Physics PHY101 Chapter 2: Distance and Displacement, Speed and Velocity (2.1,2.2) Acceleration.

Physics Principles and Problems

Announcements: 1.Labs start in the second week of classes. 2.Diagnostic test on Friday, August No class on Monday, September 1, Labor Day 4.PreClass.

Announcements: Read preface of book for great hints on how to use the book to your best advantage!! Labs begin this week (week of Sept. 3  buy lab manual).

Motion in One Dimension

I: Intro to Kinematics: Motion in One Dimension AP Physics C Mrs. Coyle.

Displacement and Velocity Chapter 2 Section 1. Displacement Definitions Displacement – The change in position of an object from one point to another in.

Chapter 2: Motion in One Dimension

Graphing Motion Position vs. Time Stationary objects

Motion in 1 Dimension. v  In the study of kinematics, we consider a moving object as a particle. A particle is a point-like mass having infinitesimal.

Announcements: Read preface of book (pp. xii to xxiii) for great hints on how to use the book to your best advantage!! Labs begin week of Sept. 3 (buy.

Moving Experiences: A Graphical Approach to Position, Velocity and Acceleration.

Motion in One Dimension Average Versus Instantaneous.

Chapter 2 Motion in One Dimension. Kinematics Describes motion while ignoring the agents that caused the motion For now, will consider motion in one dimension.

Science Starter! Complete the worksheet “Science Starter!” (on teacher’s desk).

Scalar (Dot) Product. Scalar Product by Components.

Warmup: YES calculator 1) 2). Warmup Find k such that the line is tangent to the graph of the function.

PHYS 1443 – Section 001 Lecture #3 Wednesday, January 26, 2011 Dr. Jaehoon Yu One Dimensional Motion Displacement Average Speed and Velocity Instantaneous.

Mechanics 105 Motion diagrams, position-time graphs, etc. Average and instantaneous velocity Acceleration Particle under constant acceleration Freefall.

Honors Physics Chapter 3

Chapter 2, Kinematics. Terminology Mechanics = Study of objects in motion. –2 parts to mechanics. Kinematics = Description of HOW objects move. –Chapters.

In this chapter we will only look at motion along a line (one dimension). Motion can be forward (positive displacement) or backwards (negative displacement)

Chapter 2: Motion along a straight line 2.1: Position and displacement The location of an object is usually given in terms of a standard reference point,

TUTOR & HOMEWORK SESSIONS for Physics 113 This year’s tutors: Chad McKell, Xinyi Guo All sessions will be in room Olin 103 Tutor sessions in past semesters.

Physics 1201W Lecture 2 Wednesday, September 10.

SECT. 3-A POSITION, VELOCITY, AND ACCELERATION. Position function - gives the location of an object at time t, usually s(t), x(t) or y(t) Velocity - The.

MOTION IN ONE DIMENSION AVERAGE / INSTANTANEOUS SPEED POSITION AND DISPLACEMENT AVERAGE / INSTANTANEOUS VELOCITY AVERAGE / INSTANTANEOUS ACCELERATION.

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

Science Starter! With a partner, review: - Homework 2 (Conversions and Dimensional Analysis worksheet)

Representing Motion Chapter 2. Important Terms Scalar: quantities, such as temperature or distance, that are just numbers without any direction (magnitude)

Uniform Motion.

Motion—Velocity Concepts. Gain comprehension in basics of motion and velocity of your BattleBot Calculate measurements dealing with their BattleBot’s.

Introduction to Kinematics

Chapter 2. Motion in One Dimension. Terminology Mechanics Mechanics : Study of objects in motion. Kinematics :HOW Kinematics : Description of HOW objects.

Speed, Velocity and Acceration. How Fast? Suppose you recorded two joggers on a distance-time graph. How could you tell the two joggers apart on the graph?

l The study of HOW objects move: è Graphs è Equations è Motion maps è Verbal descriptions Kinematics-1.

Motion in One Dimension Ch 2. Read and Define  Take Home Lab #1  Read Chapter 2  Complete the 6 vocabulary on page 67.

Resolve the vector into x & y components 40.0 m/s at 45 o SoW.

READ PAGES Physics Homework. Terms used to describe Physical Quantities Scalar quantities are numbers without any direction Vector quantities that.

Ch-2: Motion Along a Straight Line One purpose of physics is to study the motion of objects—how fast they move, for example, and how far they move in a.

1.1Motion and Motion Graphs. Kinematics Terminology Scalar vs. Vector Scalar: quantities that have only a size, but no direction – ie: distance, speed.

How Far? distance: –symbol: d –units: meters displacement: –symbol: –units: meters How far an object has traveled Is a “vector” quantity How far an.

Motion Notes. Key Terms 1)Motion: 2)Reference point: The state in which one object’s distance from another is changing. A place or object used for comparison.

In this chapter we will learn about vectors, (properties, addition, components of vectors) Multiplication will come later Chapter 3: Vectors WebAssign.

Monday January 26, 2004PHYS , Spring 2004 Dr. Andrew Brandt 1 PHYS 1443 – Section 501 Lecture #2 Monday January 26, 2004 Dr. Andrew Brandt Chapter.

General Physics I Lecturer: Rashadat Gadmaliyev Lecture 2: Position vectors, Trajectory, Velocity Speed and Acceleration.

Motion Along a Straight Line Chapter 3. Position, Displacement, and Average Velocity Kinematics is the classification and comparison of motions For this.

Introduction to Motion

Chapter 2 Lecture Pearson Physics © 2014 Pearson Education, Inc. Introduction to Motion Prepared by Chris Chiaverina.

Motion in One Dimension - velocity. Motion – A change in position Motion.

Describing Motion in One Dimension

ST.JOSEPH'S HIGHER SECONDARY SCHOOL

Chap. 2: Kinematics in one Dimension

Motion in One Dimension

Chapter 4, part 1: Reading assignment: Chapter 4 ( )

Lecture 2 Chapter ( 2 ).

Graphing Motion Walk Around

Section 1 Displacement and Velocity

Announcements: Read preface of book for great hints on how to use the book to your best advantage!! Labs begin week of Sept. 3  buy lab manual. Bring.

Unit One The Newtonian Revolution

Lecture 5: Introduction to Physics PHY101

In the study of kinematics, we consider a moving object as a particle.

Chapter 5.2 – Distance, Time and Speed

Speed Velocity Acceleration

Presentation transcript:

Announcements: Questions about WebAssign? My office hours: M, W, F 1:00-2:00, Olin 215 Labs start next week  Bring ThinkPads to lab

TUTOR & HOMEWORK SESSIONS This year’s tutors: Jerry Kielbasa, Matt Rave, Christine Carlisle All sessions will be in room 107 (next to lecture room). Tutor sessions in semesters past were very successful and received high marks from students. All students are encouraged to take advantage of this opportunity. MondayTuesdayWednesdayThursdayFridaySaturdaySunday

In this chapter we will only look at motion along a line (one dimension). Motion can be forward (positive displacement) or backwards (negative displacement) Chapter 2: Motion in One Dimension Reading assignment: Finish Chapter 2 Homework 2: (Due Wednesday, Aug 31) (Chp 2): 3, 10, 12, 18, 41, 58 Remember: Homework 1 is due this Monday, Aug. 29.

Displacement and total distance traveled Displacement of a particle: Its change in ______________________: x 2 final position x 1 initial position Don’t confuse displacement with the _______________ distance traveled. Example: Baseball player hitting a home run travels a total distance of 360 ft, but his displacement is 0 ft!! Displacement is a ___________: It has both, magnitude and direction!! Total distance traveled is a scalar: It has just a magnitude

Velocity and speed Average ______________ of a particle:  x: displacement of particle  t: total time during which displacement occurred. Average _________ of a particle: Velocity is a vector: It has both, ___________ and _________!! Speed is a scalar: It has just a _________________

The position of a car is measured every ten seconds relative to zero. A)30 m B)52 m C)38 m D)0 m E)- 37 m F)-53 m Find the displacement, average velocity and average speed between positions A and F. Blackboard example 2.1

Instantaneous velocity and instantaneous speed Instantaneous velocity is the _________ of x with respect to t, (dx/dt) Velocity is the ________________ of a position-time graph! The instantaneous speed (scalar) is defined as the magnitude of its velocity (vector)

Blackboard example 2.2 A particle moves along the x- axis. Its coordinate varies with time according to the expression x = -4t + 2t 2. (a) Determine the displacement of the particle in the time intervals t=0 to t=1s and t=1s to t=3s. (b)Calculate the average velocity during these two time interval. (c)Find the instantaneous velocity of the particle at t=2.5s. (d)Is the velocity constant or is it changing?

Acceleration When the velocity of a particle (say a car) is changing, it is accelerating. (Decelerating/braking = ________________ acceleration). The average acceleration of the particle is defined as the change in velocity  v x ________________ the time interval  t during which that change occurred.

The instantaneous acceleration equals the derivative of the velocity with respect to _________ (slope of a ______________________ graph). Because v x = dx/dt, the acceleration can also be written as: ???? Units: m/sec 2

Find the appropriate acceleration graphs parabola