Motion in Two and Three Dimensions. 4-2 Position and Displacement The position vector is typically used to indicate the location of a particle. The position.

Slides:

Advertisements

Similar presentations

Motion in Two and Three Dimensions

Advertisements

Motion in Two Dimensions

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.

University Physics: Mechanics Ch4. TWO- AND THREE-DIMENSIONAL MOTION Lecture 4 Dr.-Ing. Erwin Sitompul

Motion in Two and Three Dimensions

Chapter 3 Vectors in Physics.

Kinematics Velocity 1 Motion in One Dimension Uniform Motion Instantaneous Velocity Finding Position from Velocity The Particle Model Velocity.

Physics 111: Mechanics Lecture 3

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

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

Scalar (Dot) Product. Scalar Product by Components.

10.3 Vector Valued Functions Greg Kelly, Hanford High School, Richland, Washington.

Adding Vectors, Rules When two vectors are added, the sum is independent of the order of the addition. This is the Commutative Law of Addition.

Chapter 4 Motion in Two and Three Dimensions

Chapter 3 – 2D Motion Definitions Projectile motion.

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

10.2 Vectors in the Plane Quick Review What you’ll learn about Two-Dimensional Vectors Vector Operations Modeling Planar Motion Velocity, Acceleration,

10.2 day 2 Vector Valued Functions Greg Kelly, Hanford High School, Richland, WashingtonPhoto by Vickie Kelly, 2006 Everglades National Park, FL.

DESCRIBING MOTION: Kinematics in One Dimension CHAPTER 2.

Chapter 4 Motion in Two Dimensions. Position and Displacement The position of an object is described by its position vector, ________. The displacement.

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.

1 Motion in Two Dimensions Using + or – signs is not always sufficient to fully describe motion in more than one dimension Using + or – signs is not always.

1 Motion along a straight line: Position, Displacement and Velocity Lecture 03 General Physics (PHYS101)

Sect. 3-4: Analytic Method of Addition Resolution of vectors into components : YOU MUST KNOW & UNDERSTAND TRIGONOMETERY TO UNDERSTAND THIS!!!!

Review of Chapters 1, 2, and 3 Motion diagrams – both physical and pictorial representations Difference between instantaneous and average velocities Meaning.

1 Lesson 1: Physics 150 / 215 Describing Motion Basic Terms & Units of measurement –distance & displacement –speed & velocity –acceleration Analyzing Motion.

Physics MOTION Motion Diagrams n A series of images of a moving object that records its position after equal time intervals n *see the pictures in your.

What is Physics? It is the scientific study of matter and energy and their interaction with one another. Energy can take the form of light, electricity,

Any vector can be written as a linear combination of two standard unit vectors. The vector v is a linear combination of the vectors i and j. The scalar.

Chapter 3 Vectors in Physics.

Motion in Two Dimensions AP Physics C Mrs. Coyle.

Uniform Acceleration in One Dimension: Motion is along a straight line (horizontal, vertical or slanted).Motion is along a straight line (horizontal,

Theoretical Mechanics KINEMATICS * Navigation: Right (Down) arrow – next slide Left (Up) arrow – previous slide Esc – Exit Notes and Recommendations:

Lecture Outline Chapter 3 Physics, 4 th Edition James S. Walker Copyright © 2010 Pearson Education, Inc.

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

Chapter 4 Lecture 6: Motion in 2D and 3D: I HW2 (problems): 2.70, 2.72, 2.78, 3.5, 3.13, 3.28, 3.34, 3.40 Due next Friday, Feb. 19.

A.) Scalar - A single number which is used to represent a quantity indicating magnitude or size. B.) Vector - A representation of certain quantities which.

Motion Quiz. 1. The slope of a position (distance) vs time graph equals what quantity of the motion?

Vectors and Scalars. Vectors For a particle moving in three dimensions, however, a plus sign or minus sign is no longer enough to indicate a direction.

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

Motion in Two and Three Dimensions Chapter 4. Position and Displacement A position vector locates a particle in space o Extends from a reference point.

Describing Motion.

Motion in Two and Three Dimensions Chapter 4. Position and Displacement A position vector locates a particle in space o Extends from a reference point.

1 AP Physics Exam 1 Review Chapter Conversion Factors 2 mile/hr = __ m/s.

Kinematics Vocabulary Units and vectors and scalars, oh my!

University Physics: Mechanics Ch4. TWO- AND THREE-DIMENSIONAL MOTION Lecture 4 Dr.-Ing. Erwin Sitompul

Lecture Outline Chapter 3 Physics, 4th Edition James S. Walker

Motion in One Dimension

Figure shows a car moving in a circular path with constant linear speed v. Such motion is called uniform circular motion. Because the car’s.

2. Motion 2.1. Position and path Motion or rest is relative.

Two special unit vectors:

Lecture Outline Chapter 3

Chapter 3 Kinetics in Two or Three Dimensions, Vectors (1 week)

Motion in One Dimension

10.3 Vector Valued Functions

Physics 13 General Physics 1

Chapter 3 Vectors.

Fig. P4.65, p.108.

Lecture Outline Chapter 3 Physics, 4th Edition James S. Walker

Section 1 Displacement and Velocity

Concepts of Motion Readings: Chapter 1.

Lecture Outline Chapter 3 Physics, 4th Edition James S. Walker

Kinematics: Displacement and Velocity

12.5: Vector PVA.

Lecture Outline Chapter 3 Physics, 4th Edition James S. Walker

10.3 Vector Valued Functions

Fundamentals of Physics School of Physical Science and Technology

Motion in Two and Three Dimensions

Presentation transcript:

Motion in Two and Three Dimensions

4-2 Position and Displacement The position vector is typically used to indicate the location of a particle. The position vector is a vector that extends from a reference point (usually the origin) to the particle.

The position vector for a particle is the vector sum of its vector components.

In unit vector notation can be written as:

The coefficients x, y, and z are the scalar components.

The coefficients x, y, and z give the particle’s location along the coordinate axes and relative to the origin.

The figure shows a particle with position vector:

As a particle moves, its position vector changes in such a way that the position vector always extends to the particle from the reference point (origin).

If the position vector changes from during a certain time interval, then the particle’s displacement during that time interval is:

We can rewrite this displacement as:

Sample Problem 4-1

In figure 4-2 the position vector for a particle is initially and then later it is

What is the particle’s displacement from ?

Sample Problem 4-2 A rabbit runs across a parking lot on which a set of coordinate axes has been drawn. The coordinates of the rabbit’s position as functions of time t are given by: x = -0.3t t + 28 y = 0.22t t + 30

At t = 15 seconds, what is the rabbit’s position vector in unit-vector notation and as a magnitude and an angle?

Graph the rabbit’s path for t = 0 to t = 25 s.

Average Velocity and Instantaneous Velocity If a particle moves through a displacement in time interval  t, then its average velocity is:

Written as vector components:

The instantaneous velocity is the value that approaches in the limit as  t shrinks to 0.

The direction of the instantaneous velocity of a particle is always tangent to the particle’s path at the particle’s position.

The velocity of a particle along with the scalar components of

Sample Problem 4-3 For the rabbit in sample problem 4-2, find the velocity at time t = 15 s, in unit vector notation and as a magnitude and an angle.

Average Acceleration and Instantaneous Acceleration When a particle’s velocity changes from to in a time interval  t, its average acceleration a avg during  t is: