Presentation is loading. Please wait.

Presentation is loading. Please wait.

UB, Phy101: Chapter 5, Pg 1 Physics 101: Chapter 5 Application of Newton's Laws l New Material: Textbook Chapter 5 è Circular Motion & Centripetal Acceleration.

Published by Modified over 9 years ago

Similar presentations

Presentation on theme: "UB, Phy101: Chapter 5, Pg 1 Physics 101: Chapter 5 Application of Newton's Laws l New Material: Textbook Chapter 5 è Circular Motion & Centripetal Acceleration."— Presentation transcript:

1 UB, Phy101: Chapter 5, Pg 1 Physics 101: Chapter 5 Application of Newton's Laws l New Material: Textbook Chapter 5 è Circular Motion & Centripetal Acceleration Demo

2 UB, Phy101: Chapter 5, Pg 2 You are twirling a ball on string. What happens if the string breaks ? a b c Answer: b v

3 UB, Phy101: Chapter 5, Pg 3 Acceleration in Uniform Circular Motion vv1vv1 vv2vv2 vvvv vv2vv2 vv1vv1 R RRRR centripetal acceleration a  v a ave =  v /  t

4 UB, Phy101: Chapter 5, Pg 4 Uniform Circular Motion (circular motion with constant speed) v R centripetal acceleration Instantaneous velocity is tangent to circle Instantaneous acceleration is radially inward There must be a force to provide the acceleration a

5 UB, Phy101: Chapter 5, Pg 5

6 UB, Phy101: Chapter 5, Pg 6

7 UB, Phy101: Chapter 5, Pg 7

8 UB, Phy101: Chapter 5, Pg 8

9 UB, Phy101: Chapter 5, Pg 9 Chapter 5, Pre-Flight Questions Consider the following situation: You are driving a car with constant speed around a horizontal circular track. On a piece of paper, draw a Free Body Diagram (FBD) for the car. How many forces are acting on the car? 1 2 3 4 5 W f FNFN correct

10 UB, Phy101: Chapter 5, Pg 10 Chapter 5, Pre-Flight Question The net force on the car is 1. Zero 2. Pointing radially inward 3. Pointing radially outward W f FNFN  F = ma = mv 2 /R a=v 2 /R R correct For the car to stay traveling around a horizontal circular track, there must be a net force pointing radially inward, toward the center of the circle. If there wasn't, the car would drive in a straight line.

11 UB, Phy101: Chapter 5, Pg 11

12 UB, Phy101: Chapter 5, Pg 12 More about Centripetal Acceleration Define frequency f, period T, angular velocity  :

13 UB, Phy101: Chapter 5, Pg 13

14 UB, Phy101: Chapter 5, Pg 14

15 UB, Phy101: Chapter 5, Pg 15

Download ppt "UB, Phy101: Chapter 5, Pg 1 Physics 101: Chapter 5 Application of Newton's Laws l New Material: Textbook Chapter 5 è Circular Motion & Centripetal Acceleration."

Similar presentations

Uniform circular motion: examples include

Uniform circular motion: examples include
Lecture 8, Pre-Flight Questions 1&2

Lecture 8, Pre-Flight Questions 1&2
B: Tangent to the Circle

B: Tangent to the Circle
Lecture 16 Chapter 6: Circular Motion Please sit in the first six rows.

Lecture 16 Chapter 6: Circular Motion Please sit in the first six rows.
Newton’s Laws + Circular Motion. Sect. 5-2: Uniform Circular Motion; Dynamics A particle moving in uniform circular motion at radius r, speed v = constant:

Newton’s Laws + Circular Motion. Sect. 5-2: Uniform Circular Motion; Dynamics A particle moving in uniform circular motion at radius r, speed v = constant:
Circular Motion and Gravitation

Circular Motion and Gravitation
Chapter 6: Circular Motion & Other Applications of Newton’s Laws

Chapter 6: Circular Motion & Other Applications of Newton’s Laws
Uniform Circular Motion

Uniform Circular Motion
Mechanics Lecture 4, Slide 1 Classical Mechanics Lecture 4 Today's Concepts: Newton’s Laws a) Acceleration is caused by forces b) Force changes momentum.

Mechanics Lecture 4, Slide 1 Classical Mechanics Lecture 4 Today's Concepts: Newton’s Laws a) Acceleration is caused by forces b) Force changes momentum.
Mechanics Lecture 4, Slide 1 Today's Concepts: Newton’s Laws a) Acceleration is caused by forces b) Force changes momentum c) Forces always come in pairs.

Mechanics Lecture 4, Slide 1 Today's Concepts: Newton’s Laws a) Acceleration is caused by forces b) Force changes momentum c) Forces always come in pairs.
Uniform Circular Motion Basic Principles & Formulas.

Uniform Circular Motion Basic Principles & Formulas.
Physics 101: Lecture 8, Pg 1 Centripetal Acceleration and Circular Motion Physics 101: Lecture 08 l Today’s lecture will cover Chapter 5 Exam II Problems.

Physics 101: Lecture 8, Pg 1 Centripetal Acceleration and Circular Motion Physics 101: Lecture 08 l Today’s lecture will cover Chapter 5 Exam II Problems.
Uniform Circular Motion. Answer Me!!!!  Newton’s Laws state that an object in motion will stay at the same velocity until acted upon by an unbalanced.

Uniform Circular Motion. Answer Me!!!!  Newton’s Laws state that an object in motion will stay at the same velocity until acted upon by an unbalanced.
Physical Modeling, Fall 20061 Centripetal (or Radial) Acceleration The change of v can be in magnitude, direction, or both.

Physical Modeling, Fall Centripetal (or Radial) Acceleration The change of v can be in magnitude, direction, or both.
Physics 101: Lecture 10, Pg 1 Physics 101: Lecture 10 Application of Newton's Laws l New Material: Textbook Chapter 5 è Circular Motion & Centripetal Acceleration.

Physics 101: Lecture 10, Pg 1 Physics 101: Lecture 10 Application of Newton's Laws l New Material: Textbook Chapter 5 è Circular Motion & Centripetal Acceleration.
5.4 highway curves 5.5 Non-uniform circular motion 5.6 Drag Velocity

5.4 highway curves 5.5 Non-uniform circular motion 5.6 Drag Velocity
Copyright © 2008 Pearson Education, Inc., publishing as Pearson Addison-Wesley. Chapter 5: Uniform Circular Motion Chapter Goal: To learn how to solve.

Copyright © 2008 Pearson Education, Inc., publishing as Pearson Addison-Wesley. Chapter 5: Uniform Circular Motion Chapter Goal: To learn how to solve.
Circular Motion; Gravitation

Circular Motion; Gravitation
Centripetal Force and Acceleration Unit 6, Presentation 1.

Centripetal Force and Acceleration Unit 6, Presentation 1.
Cutnell/Johnson Physics 7th edition Reading Quiz Questions

Cutnell/Johnson Physics 7th edition Reading Quiz Questions

Similar presentations

Ads by Google