01-1 Physics I Class 01 1D Motion. 01-2 Definitions.

Slides:

Advertisements

Similar presentations

Motion and Force A. Motion 1. Motion is a change in position

Advertisements

13-1 Physics I Class 13 General Rotational Motion.

Motion with Uniform Acceleration

R2-1 Physics I Review 2 Review Notes Exam 2. R2-2 Work.

CHS Physics Motion in Two and Three Dimensions. Position  The position of an object in two or three dimensions is given by a position vector.  The vector.

Kinematics- Acceleration Chapter 5 (pg ) A Mathematical Model of Motion.

Lecture 8: Vector Components Average amount spent lobbying Congress each day it was in session last year: $16,279,069.

Phy 211: General Physics I Chapter 4: Motion in 2 & 3 Dimensions Lecture Notes.

14-1 Physics I Class 14 Introduction to Rotational Motion.

Chapter 8: Rotational Kinematics Lecture Notes

Ideal Projectile Equations: If the only force is weight, then the x velocity stays constant (a x = 0). The y velocity changes with time and position (y.

02-1 Physics I Class 02 One-Dimensional Motion Definitions.

06-1 Physics I Class 06 Uniform Circular Motion Newton’s Second Law - Yet Another Review!

05-1 Physics I Class 05 Uniform Circular Motion Newton’s Second Law - Review.

02-1 Physics I Class 02 Two-Dimensional Motion One-Dimensional Motion with Constant Acceleration - Review.

Motion If you want to keep something from moving… …you need to understand what would make it move! Physical Principles of Design Class 02, Thursday, 15.

Answer key for Physics Test

Motion Vectors. Displacement Vector  The position vector is often designated by.  A change in position is a displacement.  The displacement vector.

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

Chapter 14 Section 14.3 Curves. x y z To get the equation of the line we need to know two things, a direction vector d and a point on the line P. To find.

Scalar (Dot) Product. Scalar Product by Components.

2 Motion in One Dimension Displacement, velocity, speed Acceleration Motion with Constant Acceleration Integration Hk: 13, 27, 51, 59, 69, 81, 83, 103.

NOTES p.14. Deriving the Equations of Motion The following 3 equations can be used for any situation that involves a constant acceleration (horizontally.

1 Chapter 6: Motion in a Plane. 2 Position and Velocity in 2-D Displacement Velocity Average velocity Instantaneous velocity Instantaneous acceleration.

Projectiles Horizontal Projection Horizontally: Vertically: Vertical acceleration g  9.8 To investigate the motion of a projectile, its horizontal and.

Displacement vs Time, Velocity vs Time, and Acceleration vs Time Graphs.

Kinematics- Acceleration Chapter 5 (pg ) A Mathematical Model of Motion.

Rotational Kinematics Chapter 8. Expectations After Chapter 8, students will:  understand and apply the rotational versions of the kinematic equations.

4.1 The Position, Velocity, and Acceleration Vectors 4.1 Displacement vector 4.2 Average velocity 4.3 Instantaneous velocity 4.4 Average acceleration 4.5.

Mechanics Physics12 Equations, relative motion & relative motion Mechanics Physics12 Equations, relative motion & relative motion Equations of motion.

المحاضرة الخامسة. 4.1 The Position, Velocity, and Acceleration Vectors The position of a particle by its position vector r, drawn from the origin of some.

2.1 Position, Velocity, and Speed 2.1 Displacement  x  x f - x i 2.2 Average velocity 2.3 Average speed  

3.4 Velocity and Other Rates of Change. What you’ll learn about Instantaneous Rates of change Motion Along a Line Sensitivity to Change Derivatives in.

3.2 Notes - Acceleration Part A. Objectives  Describe how acceleration, time and velocity are related.  Explain how positive and negative acceleration.

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

Physics Lecture 14 Instructor: John H. Hamilton. Last Lecture Review This week – Position – Change in position wrt time – Change in velocity wrt time.

Work and Energy January 30, 2009 Michael F. McGraw, Ph.D.

PHY221 Ch7: W and KE 1.Recall main points: Work Energy Theorem Understand the derivation of the work energy theorem Know how to compute the work of a given.

Derivative Examples 2 Example 3

Acceleration Acceleration is the rate of change of velocity.

1 Vector Decomposition y x 0 y x 0 y x 0. 2 Unit vector in 3D Cartesian coordinates.

PHYSIC S. Think back to GCSE 1.Write down the definition of velocity Speed in a given direction 2.Write down the calculation for velocity But that is.

Phy 201: General Physics I Chapter 3: Motion in 2 Dimensions Lecture Notes.

How Are Speed and Velocity Related?

Mechanics 1 : Kinematics

Motion Graphs Position-Time (also called Distance-Time or Displacement-Time) d t At rest.

The horizontal and vertical components of a projectile in motion depend upon the initial velocity. True False.

Two special unit vectors:

Kinematic Equations Used in situations with uniform acceleration.

Motion with Constant Acceleration

Chapter 2 Objectives Describe motion in terms of changing velocity.

الفصل 1: الحركة الدورانية Rotational Motion

Physics I Class 01 Introduction & 1D Motion.

Acceleration Define Acceleration. What are the units for acceleration. Is acceleration a scalar or vector quantity Objective(s)/SWBAT (Students will.

Motion and Force A. Motion 1. Motion is a change in position

Graphing Motion Walk Around

Physics I Class 13 Introduction to Rotational Motion.

Vectors Vectors are a way to describe motion that is not in a straight line. All measurements can be put into two categories: Scalars = magnitude Vectors.

Chapter 2 Motion.

Mechanics The study of Physics begins with mechanics.

Contents: 2-1E, 2-5E, 2-9P, 2-13P, 2-33P, 2-36P*

Chapter 2: Kinematics in One Dimension

2-4 Acceleration Acceleration is the rate of change of velocity.

15.3: Motion Rita Korsunsky.

Motion in One Dimension

REVIEW: Motion in 1D Review Questions Sep 26, 2011.

Kinematics in Two Dimensions

Physics I Class 14 Introduction to Rotational Motion.

Presentation transcript:

01-1 Physics I Class 01 1D Motion

01-2 Definitions

01-3 Definitions (Continued)

01-4 Definitions (Continued)

01-5 Definitions (Continued)

01-6 Components of Vectors

01-7 Velocity and Acceleration

01-8 Constant Acceleration

01-9 Displacement with Constant Acceleration

01-10 Class #1 Take-Away Concepts

01-11 Class #1 Problems of the Day

01-12 Class #1 Problems of the Day

01-13 Activity #1 Software Loading / 1D Motion

01-14 Optional Material at the End of the Lecture Notes

01-15 Class #1 Optional Material Deriving the Other Equations