Presentation is loading. Please wait.

Presentation is loading. Please wait.

 Describe the concept of acceleration as a change in velocity  Explain why circular motion is continuous acceleration even when speed does not change.

Published byElwin Lynch Modified over 8 years ago

Similar presentations

Presentation on theme: " Describe the concept of acceleration as a change in velocity  Explain why circular motion is continuous acceleration even when speed does not change."— Presentation transcript:

1

2  Describe the concept of acceleration as a change in velocity  Explain why circular motion is continuous acceleration even when speed does not change  Calculate acceleration as the rate at which velocity changes  Graph acceleration on a velocity-time graph

3  Is the rate at which velocity changes  It is calculated as the change in velocity divided by time  Acceleration = change in velocity a = Δ v time t time t  It is measured in meters/second 2 (m/s 2 )  An object accelerates when its speed, direction, or both change › Examples: pedaling a bike faster every second or the moon constantly accelerating around the Earth

4  Is uniform circular motion  An object traveling in a circular motion is always changing its direction  As a result, velocity is always changing  Thus, acceleration is occurring

5  Is acceleration that occurs in uniform circular motion  Examples: › Wind turbines

6  If the acceleration is small, the velocity is increasing very gradually  If the acceleration has a greater value, the velocity is increasing more rapidly  Positive acceleration = velocity increasing  Negative acceleration = velocity decreasing

7  A car accelerates from 0 m/s to 45 m/s northward in 15 s. What is the acceleration of the car?

8  A cyclist travels at a constant velocity of 4.5 m/s westward, and then speeds up with a steady acceleration of 2.3 m/s 2. Calculate the cyclist’s speed after accelerating for 5.0 s.

Download ppt " Describe the concept of acceleration as a change in velocity  Explain why circular motion is continuous acceleration even when speed does not change."

Similar presentations

IP2.6.4 Drawing velocity-time graphs © Oxford University Press 2011 Drawing velocity-time graphs.

IP2.6.4 Drawing velocity-time graphs © Oxford University Press 2011 Drawing velocity-time graphs.
Objectives: 1.Be able to distinguish between distance and displacement 2.Explain the difference between speed and velocity 3.Be able to interpret motion.

Objectives: 1.Be able to distinguish between distance and displacement 2.Explain the difference between speed and velocity 3.Be able to interpret motion.
Table of Contents 2 Chapter 2 Motion.

Table of Contents 2 Chapter 2 Motion.
Journal #12 / If the trend continues, where would the object be at 10 seconds?

Journal #12 / If the trend continues, where would the object be at 10 seconds?
Kinematics Goals: understand graphs of a) position versus time, b) velocity versus time.

Kinematics Goals: understand graphs of a) position versus time, b) velocity versus time.
Kinematics Demo – Ultrasonic locator Graph representation.

Kinematics Demo – Ultrasonic locator Graph representation.
Linear Motion-Acceleration

Linear Motion-Acceleration
Acceleration Unit 1 Lesson 2.

Acceleration Unit 1 Lesson 2.
Section 1: What is Motion? Matter and Motion (pg. 282) ●All matter in the universe is constantly in motion Changing Position ●Something is in motion if.

Section 1: What is Motion? Matter and Motion (pg. 282) ●All matter in the universe is constantly in motion Changing Position ●Something is in motion if.
Table of Contents Chapter 9 Motion and Energy Chapter Preview

Table of Contents Chapter 9 Motion and Energy Chapter Preview
Acceleration Motion Unit. Acceleration  objects that speed up, slow down, or change direction have accelerated Acceleration = change in velocity Interval.

Acceleration Motion Unit. Acceleration  objects that speed up, slow down, or change direction have accelerated Acceleration = change in velocity Interval.
Motion, Speed, and Velocity

Motion, Speed, and Velocity
Take out your homework. Take 5 minutes to prepare for your quiz Objective: To differentiate between speed and acceleration. Key Terms: speedaverage speed.

Take out your homework. Take 5 minutes to prepare for your quiz Objective: To differentiate between speed and acceleration. Key Terms: speedaverage speed.
Motion 4.3.

Motion 4.3.
Motion Unit Chapter 10.

Motion Unit Chapter 10.
Unit 1 Lesson 1 Copyright © Houghton Mifflin Harcourt Publishing Company.

Unit 1 Lesson 1 Copyright © Houghton Mifflin Harcourt Publishing Company.
Shrinking Moon Explanation on next slide. Velocity Is a description of an object’s speed and direction. formula is the same as for speed Velocity=

Shrinking Moon Explanation on next slide. Velocity Is a description of an object’s speed and direction. formula is the same as for speed Velocity=
10.2 Acceleration I CAN: -IDENTIFY THAT ACCELERATION IS A VECTOR PROPERTY. -CALCULATE AVERAGE ACCELERATION OF AN OBJECT. -DETERMINE IF ACCELERATION IS.

10.2 Acceleration I CAN: -IDENTIFY THAT ACCELERATION IS A VECTOR PROPERTY. -CALCULATE AVERAGE ACCELERATION OF AN OBJECT. -DETERMINE IF ACCELERATION IS.
Kinematics- Acceleration Chapter 5 (pg. 81-103) A Mathematical Model of Motion.

Kinematics- Acceleration Chapter 5 (pg ) A Mathematical Model of Motion.
Chapter 2: Motion.  A train travels 150 km in 3 hours. It is traveling directly from south towards the north.  What is the speed of the train?  What.

Chapter 2: Motion.  A train travels 150 km in 3 hours. It is traveling directly from south towards the north.  What is the speed of the train?  What.

Similar presentations

Ads by Google