Presentation is loading. Please wait.

Presentation is loading. Please wait.

Kinematics Descriptions of Motion aka “Kinematics” time ( t ) position (d)  displacement (  d) velocity (v) acceleration (a)

Published byNathaniel Morgan Modified over 8 years ago

Similar presentations

Presentation on theme: "Kinematics Descriptions of Motion aka “Kinematics” time ( t ) position (d)  displacement (  d) velocity (v) acceleration (a)"— Presentation transcript:

1

2 Kinematics

3 Descriptions of Motion aka “Kinematics” time ( t ) position (d)  displacement (  d) velocity (v) acceleration (a)

4 Distance vs. Displacement Distance is a scalar quantity. Displacement is a vector quantity.

5 Vector vs. Scalar Quantities Vector Quantity Fully described by both magnitude (number plus units) AND direction Examples: -position (d) -displacement (  d) -velocity (v) (notice the arrows) Scalar Quantity Fully described by magnitude alone Examples: - time ( t ) - distance ( d ) - speed (  ) (notice the italics )

6 Speed and Velocity  Speed is the magnitude of velocity - it only reflects how fast an object is traveling  Velocity is a vector - it is speed in a particular direction  Along a straight line  direction is indicated with a +/- sign

7 Calculating Velocity Average velocity is the displacement divided by the total time interval: v av = ∆d∆t∆d∆t = d – d 0 t – t 0 ∆ (delta)  means “change in” Instantaneous velocity is the velocity of the object at any given instant in time. Constant (uniform) velocity means non-changing velocity.

8 Equation Notations in Physics: Quantities are expressed in variable form with a subscript used to describe different points in time v = d f - d i or d 1 – d 0 t f - t i t 1 – t 0 To simplify equations we will always assume, unless very specifically told otherwise, that t i = 0 Initial positions, velocities, etc. will be represented by the subscript 0 ( v 0, d 0, etc.) and final values will have no subscript at all ( v 1, d 1, t 1, etc.)

Download ppt "Kinematics Descriptions of Motion aka “Kinematics” time ( t ) position (d)  displacement (  d) velocity (v) acceleration (a)"

Similar presentations

Motion.

Motion.
KINEMATICS.

KINEMATICS.
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 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

Physics Principles and Problems
SPEED AND VELOCITY NOTES

SPEED AND VELOCITY NOTES
Ch. 2 - 3 Displacement, Velocity, and Acceleration.

Ch Displacement, Velocity, and Acceleration.
Topic 2.1 Kinematics _Uniform Motion

Topic 2.1 Kinematics _Uniform Motion
Scalar (Dot) Product. Scalar Product by Components.

Scalar (Dot) Product. Scalar Product by Components.
1-D Kinematics. Science of describing motion. Words Diagrams Numbers Graphs Equations Develop sophosticated mental models that describe the motion of.

1-D Kinematics. Science of describing motion. Words Diagrams Numbers Graphs Equations Develop sophosticated mental models that describe the motion of.
Chapter 4Linear motion. 1) Linear means in a straight line.

Chapter 4Linear motion. 1) Linear means in a straight line.
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.
Linear Kinematics : Velocity & Acceleration. Speed Displacement - the change in position in a particular direction and is always a straight line segment.

Linear Kinematics : Velocity & Acceleration. Speed Displacement - the change in position in a particular direction and is always a straight line segment.
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.
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.
Chapter 2 Kinematics: Description of Motion

Chapter 2 Kinematics: Description of Motion
Motion In One Dimension by: Heather Britton. Motion In One Dimension Kinematics - the study of how objects move Frame of reference - what you are comparing.

Motion In One Dimension by: Heather Britton. Motion In One Dimension Kinematics - the study of how objects move Frame of reference - what you are comparing.
Kinematics Kinematics is the branch of physics that describes the motion of points, bodies (objects) and systems of bodies (groups of objects) without.

Kinematics Kinematics is the branch of physics that describes the motion of points, bodies (objects) and systems of bodies (groups of objects) without.
Kinematics Kinematics is the branch of physics that describes the motion of points, bodies (objects) and systems of bodies (groups of objects) without.

Kinematics Kinematics is the branch of physics that describes the motion of points, bodies (objects) and systems of bodies (groups of objects) without.
DESCRIBING MOTION: Kinematics in One Dimension CHAPTER 2.

DESCRIBING MOTION: Kinematics in One Dimension CHAPTER 2.
Chapter 2 Motion in One Dimension. Kinematics In kinematics, you are interested in the description of motion Not concerned with the cause of the motion.

Chapter 2 Motion in One Dimension. Kinematics In kinematics, you are interested in the description of motion Not concerned with the cause of the motion.

Similar presentations

Ads by Google