Presentation is loading. Please wait.

Presentation is loading. Please wait.

Velocity and Acceleration

Published byYandi Halim Modified over 5 years ago

Similar presentations

Presentation on theme: "Velocity and Acceleration"— Presentation transcript:

1 Velocity and Acceleration

2 Speed vs.Velocity Speed is the distance an object travels per unit of time (rate). Scalar quantity- Tells magnitude of an object. Velocity describes the speed and direction of a moving object. Vector quantity- tells magnitude and direction.

3 Displacement Defines the distance and direction between two positions.
Distance: Length of the displacement vector. Time interval- Distance between t0 and t1. Common symbol is Δt ΔT=t1-t0 SI Unit is m/s

4 Velocity Objects undergoing motion will either have a constant or changing velocity At a constant velocity, an object neither speeds up or slows down. At a changing velocity, an object will either speed up or slow down.

5 Constant / Zero Velocity
Distance (m) Time (s) Zero Velocity Constant velocity

6 Average Velocity νavg =Δd / Δt
When working with a constant velocity, we use the following equation. νavg = Δx / Δt νavg =Δd / Δt Velocity Distance Time Δ = change

7 Sample Problem What is the velocity of a runner that can travel 10 m in 5 seconds? νavg =Δd / Δt νavg = 10 m/5 s νavg = 2 m/s

8 Changing Velocity Distance (m) Time (s) Changing velocity

9 Acceleration changes velocity
Acceleration is the rate of change of velocity within a given time interval. Objects can accelerate in both the positive and negative direction. d t d t v v

10 Graphing Acceleration
Velocity (v) Time (t)

11 Accelerating Car 100 velocity Time Constant acceleration

12 Car on cruise control 100 velocity Time Zero Acceleration

13 Decelerating Car 100 velocity Time deceleration

14 Acceleration (cont.) aavg = Δ ν /Δt = vf – vi t Final Velocity
Initial Velocity aavg = Δ ν /Δt = vf – vi t acceleration SI unit = m/s²

15 Sample Problem A car traveling at 7.0 m/s accelerates uniformly to a velocity of 12.0 m/s in 2.0 s. What is the acceleration of the car? 2.5 m/s² a = vf – vi t = (12.0 m/s – 7.0 m/s) = 2.0 s Vf = 12 m/s Vi = 7 m/s t = 2.0 s

Download ppt "Velocity and Acceleration"

Similar presentations

3-3 Velocity and Acceleration. Velocity Average Velocity  Vector measurement that is the change in distance per some change in time  V = Δd / Δt = (d.

3-3 Velocity and Acceleration. Velocity Average Velocity  Vector measurement that is the change in distance per some change in time  V = Δd / Δt = (d.
Displacement and Velocity Chapter 2 Section 1. Displacement Definitions Displacement – The change in position of an object from one point to another in.

Displacement and Velocity Chapter 2 Section 1. Displacement Definitions Displacement – The change in position of an object from one point to another in.
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.
SPEED and VELOCITY Speed is how far an object travels in a given time period. Speed is how far an object travels in a given time period. S= d/tS= d/t Speed.

SPEED and VELOCITY Speed is how far an object travels in a given time period. Speed is how far an object travels in a given time period. S= d/tS= d/t Speed.
Speed vs.Velocity Speed (s) is the distance an object travels per unit of time (rate). Speed (s) is the distance an object travels per unit of time (rate).

Speed vs.Velocity Speed (s) is the distance an object travels per unit of time (rate). Speed (s) is the distance an object travels per unit of time (rate).
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.
1 Lesson 1: Physics 150 / 215 Describing Motion Basic Terms & Units of measurement –distance & displacement –speed & velocity –acceleration Analyzing Motion.

1 Lesson 1: Physics 150 / 215 Describing Motion Basic Terms & Units of measurement –distance & displacement –speed & velocity –acceleration Analyzing Motion.
Velocity and Speed. Mechanics Branch of physics that studies motion Two parts Kinematics – describes motion Dynamics – tells why motion occurs.

Velocity and Speed. Mechanics Branch of physics that studies motion Two parts Kinematics – describes motion Dynamics – tells why motion occurs.
Representing Motion Chapter 2. Important Terms Scalar: quantities, such as temperature or distance, that are just numbers without any direction (magnitude)

Representing Motion Chapter 2. Important Terms Scalar: quantities, such as temperature or distance, that are just numbers without any direction (magnitude)
P. Sci. Chapter 11 Motion & Forces. Motion when something changes position.

P. Sci. Chapter 11 Motion & Forces. Motion when something changes position.
Distance, Speed Notes. Distance, Speed  There are 4 ways to quantify motion:  How far (distance/displacement)  How fast (speed/velocity)  Direction.

Distance, Speed Notes. Distance, Speed  There are 4 ways to quantify motion:  How far (distance/displacement)  How fast (speed/velocity)  Direction.
3.2 Notes - Acceleration Part A. Objectives  Describe how acceleration, time and velocity are related.  Explain how positive and negative acceleration.

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

Displacement, Velocity, Constant Acceleration.
Resolve the vector into x & y components 40.0 m/s at 45 o SoW.

Resolve the vector into x & y components 40.0 m/s at 45 o SoW.
READ PAGES 34-37 Physics Homework. Terms used to describe Physical Quantities Scalar quantities are numbers without any direction Vector quantities that.

READ PAGES Physics Homework. Terms used to describe Physical Quantities Scalar quantities are numbers without any direction Vector quantities that.
1.1Motion and Motion Graphs. Kinematics Terminology Scalar vs. Vector Scalar: quantities that have only a size, but no direction – ie: distance, speed.

1.1Motion and Motion Graphs. Kinematics Terminology Scalar vs. Vector Scalar: quantities that have only a size, but no direction – ie: distance, speed.
One Dimensional Motion Review. Motion In One Dimension Simplest type of motion We set the frame of reference – Example, when we set the origin in a coordinate.

One Dimensional Motion Review. Motion In One Dimension Simplest type of motion We set the frame of reference – Example, when we set the origin in a coordinate.
Motion in One Dimension - velocity. Motion – A change in position Motion.

Motion in One Dimension - velocity. Motion – A change in position Motion.
Speed Velocity and Acceleration. What is the difference between speed and velocity? Speed is a measure of distance over time while velocity is a measure.

Speed Velocity and Acceleration. What is the difference between speed and velocity? Speed is a measure of distance over time while velocity is a measure.

Similar presentations

Ads by Google