Presentation is loading. Please wait.

Presentation is loading. Please wait.

SPH4C Unit #3 – Energy Transformations Kinetic Energy.

Published byWilla Anderson Modified over 9 years ago

Similar presentations

Presentation on theme: "SPH4C Unit #3 – Energy Transformations Kinetic Energy."— Presentation transcript:

1 SPH4C Unit #3 – Energy Transformations Kinetic Energy

2 Learning Goals and Success Criteria Today I will be able to… Define the term kinetic energy Solve problems related to kinetic energy

3 Potential Energy Let’s consider the wrecking ball situation again. When the ball is released, it falls. As the ball falls, its gravitational potential energy is gradually transformed into kinetic energy as its speed increases. Energy due to the motion of an object is called kinetic energy (E k ). Kinetic Energy (E k ) The energy possessed by a moving object

4 Kinetic Energy A moving object has the ability to do work because it can apply a force to another object and displace it. The energy possessed by moving objects is called kinetic energy (E k ). For example, a moving hammer has kinetic energy because it has the ability to apply a force on a nail and push the nail into a piece of wood.

5 Kinetic Energy In general, the kinetic energy of an object of mass, m, travelling at a speed, v, is given by the following formula: Note: The faster the hammer moves or the greater its mass, the greater its kinetic energy, and the greater the displacement of the nail.

6 Kinetic Energy Kinetic Energy (E k ) The energy possessed by a moving object. WhereE k is the kinetic energy (J) mis the mass (kg) vis the speed (m/s)

7 Kinetic Energy Practice 1.What is the kinetic energy of a 0.48 kg lawn dart travelling at a speed of 3.4 m/s?

8 Kinetic Energy 2.A softball with a mass of 0.17 kg has a kinetic energy of 98 J. What is its velocity?

9 Kinetic Energy 3.A 97 g cup falls from a kitchen shelf and shatters on the ceramic tile floor. Assume that the maximum kinetic energy obtained by the cup is 2.6 J and that air resistance is negligible. a)Calculate the cup’s maximum speed.

10 Kinetic Energy 3.A 97 g cup falls from a kitchen shelf and shatters on the ceramic tile floor. Assume that the maximum kinetic energy obtained by the cup is 2.6 J and that air resistance is negligible. b)What happened to the 2.6 J of kinetic energy after the crash? The energy was converted to sound, kinetic and thermal energy

11 Homework Read: Pg. 143 Practice Problems: Pg. 143 #7-10

Download ppt "SPH4C Unit #3 – Energy Transformations Kinetic Energy."

Similar presentations

Kinetic and Potential Energy

Kinetic and Potential Energy
5.2 Energy How are people, machines, and Earth able to do mechanical work? The answer is energy: energy provides the ability to do work. Objects may possess.

5.2 Energy How are people, machines, and Earth able to do mechanical work? The answer is energy: energy provides the ability to do work. Objects may possess.
For Your Consideration…

For Your Consideration…
Energy Conversion of Energy Forms of Energy Energy Work.

Energy Conversion of Energy Forms of Energy Energy Work.
Unlike kinetic energy, potential energy is b. stored

Unlike kinetic energy, potential energy is b. stored
Chapter 9:Linear Momentum 8-4 Problem Solving Using Conservation of Mechanical Energy 8-5 The Law of Conservation of Energy 8-6 Energy conservation with.

Chapter 9:Linear Momentum 8-4 Problem Solving Using Conservation of Mechanical Energy 8-5 The Law of Conservation of Energy 8-6 Energy conservation with.
SPH4C Unit #3 – Energy Transformations

SPH4C Unit #3 – Energy Transformations
Mechanical Work: More Practice. Gravitational Potential Energy: More Practice.

Mechanical Work: More Practice. Gravitational Potential Energy: More Practice.
Projectile Motion YouTube - Baxter NOOOOOOOOOO.

Projectile Motion YouTube - Baxter NOOOOOOOOOO.
Chapter 4 Work & Energy Dr. Ali.

Chapter 4 Work & Energy Dr. Ali.
Law of Conservation of Energy

Law of Conservation of Energy
2.10 : WORK, ENERGY, POWER AND EFFICIENCY

2.10 : WORK, ENERGY, POWER AND EFFICIENCY
Chapter 5 Energy. Energy defined and Work  Energy- is defined as the ability to do work. Work is done when a force causes something to move  https://www.youtube.com/watch?v=xBnS23U_ao4.

Chapter 5 Energy. Energy defined and Work  Energy- is defined as the ability to do work. Work is done when a force causes something to move 
Unit 6 Energy, Work & Power.

Unit 6 Energy, Work & Power.
Kinetic Energy A moving object has energy because of its motion. This energy is called kinetic energy.

Kinetic Energy A moving object has energy because of its motion. This energy is called kinetic energy.
Chapter 7: Work and Energy (Ewen et al. 2005) Objectives: Define different forms of mechanical energy. Define different forms of mechanical energy. Apply.

Chapter 7: Work and Energy (Ewen et al. 2005) Objectives: Define different forms of mechanical energy. Define different forms of mechanical energy. Apply.
Section 3 What Is Energy?. But first, let’s review: 1. How do we define work? Energy transferred by a _____ Force applied to a body Body moves in _______________.

Section 3 What Is Energy?. But first, let’s review: 1. How do we define work? Energy transferred by a _____ Force applied to a body Body moves in _______________.
Kinetic and Potential Energy

Kinetic and Potential Energy
Conservation of Energy and Momentum. Conservation If you gave me a dollar and asked for change, how many dimes would you want back? How about quarters?

Conservation of Energy and Momentum. Conservation If you gave me a dollar and asked for change, how many dimes would you want back? How about quarters?
Thursday, June 26, 2014PHYS 1441-001, Summer 2014 Dr. Jaehoon Yu 1 PHYS 1441 – Section 001 Lecture #13 Thursday, June 26, 2014 Dr. Jaehoon Yu Potential.

Thursday, June 26, 2014PHYS , Summer 2014 Dr. Jaehoon Yu 1 PHYS 1441 – Section 001 Lecture #13 Thursday, June 26, 2014 Dr. Jaehoon Yu Potential.

Similar presentations

Ads by Google