Energy Bar Graphs Quantitative Examples

Slides:

Advertisements

Similar presentations

What are potential and kinetic energy?

Advertisements

PHYS16 – Lecture 16 Ch. 8 Energy Conservation. Energy Pre-question Clyde, the dinosaur, is sick of his doll-sized roller coaster and decides to ride the.

1 The energy in the system changes. This change is equal to the force that Stephen exerts on David multiplied by the distance David moves. 2 The energy.

Fisica Generale - Alan Giambattista, Betty McCarty Richardson Copyright © 2008 – The McGraw-Hill Companies s.r.l. 1 Chapter 6: Conservation of Energy Work.

A non-bouncy object is dropped from the top of a 100m building. If the object comes to rest upon hitting the ground, does this defy conservation of energy?

ENERGY REVIEW. What is energy? The ability to do work or make change in matter.

Energy & the Roller Coaster

Lecture notes by Dr. M. S. Kariapper KFUPM - PHYSICS 5-Nov-061/8 Potential Energy and Conservation of Energy. Conservative and non-conservative forces.

Physics 218: Mechanics Instructor: Dr. Tatiana Erukhimova Lecture 21.

Energy Curves. Roller Coaster Track  A cart at point A has potential energy.  A cart at point B has converted potential energy into kinetic energy.

Copyright © 2007, Pearson Education, Inc., Publishing as Pearson Addison-Wesley. Important forms of energy How energy can be transformed and transferred.

Conservation of Mechanical Energy Chapter 6. Energy  As you know, energy comes in many forms. Kinetic Energy Potential Energy  Gravitational Potential.

Energy Pie Charts.

MOMENTUM Definition: Momentum (Symbol : ….) is defined as the product of the ………….. and ……………. of a moving body. Momentum p = units: ……………. N.B. Since.

Energy Unit VII. Energy Core Unit Concepts: There are not different types of energy, all energy is the same. Energy is energy is energy. Energy is given.

Sect. 6-5: Conservative Forces. Conservative Force  The work done by that force depends only on initial & final conditions & not on path taken between.

Work and Energy.

Conservation of Energy. Conservative Force One for which work done does not depend on the path taken only on initial and final positions Gravity and elastic.

Simple Machines. Example A frictionless 30 o ramp is used to lift a 500kg crate up a vertical distance of 1.5m. If the ramp is used is 4.0m long, a) What.

How to Make an Energy Bar Chart 1. Determine what is in the system.

Conservation of Energy System Energy of Gravitational Interaction -- Gravitational Potential Energy If the system contains Earth and an object (or objects),

Acceleration. Acceleration – The rate at which velocity changes Results from a change in speed and direction Acceleration = change in velocity = Δv timet.

Work and Energy x Work and Energy 06.

Ideas about Work and Energy What exactly is energy?

Mechanical Energy What is it? What makes it change?

 One for which work done does not depend on the path taken only on initial and final positions  Gravity and elastic forces are conservative  Why is.

1 The energy in the system changes. This change is equal to the force that Stephen exerts on David multiplied by the distance David moves. 2 The energy.

Copyright © 2007, Pearson Education, Inc., Publishing as Pearson Addison-Wesley. Important forms of energy How energy can be transformed and transferred.

1 Conservation of Energy “with non-conservative forces” Some Key Terms Internal force: any force exerted on an object in the system due to another object.

Acceleration. Acceleration – rate at which velocity changes Results from a change in speed and direction Acceleration = change in velocity = Δv timet.

WHY DO WE DO WORK? Work transfers energy from one object to another. So, what is energy? –Energy is the ability to do work. Major forms (for our purposes)

Dissipative Forces. Reality? In reality, non-conservative forces cannot be ignored: friction really does act Dissipative force is one that reduces the.

10-4 Solving Radical Equations Hubarth Algebra. Solve each equation. Check your answers. x = 9 ( x) 2 = 9 2 x = 81 x – 5 = 4 Ex 1 Solving By Isolating.

THE ABILITY TO CAUSE CHANGE

Conservative and Nonconservative Forces

What are potential and kinetic energy?

Chapter 7 Potential Energy.

By: Amanda Hui & Jessica Lu

Conservation of Energy

Energy Physics 11

Conservation of Energy

The Law of Conservation Of Energy

قطار التعرج مجلس أبوظبي للتعليم منطقة العين التعليمية

Ch. 6 slides Circular Motion.ppt.

P2.3 Forces in Action.

Oct. 10, 2018 Collect DOL: Kinetic Energy from Green Basket, Coach Pease at the door Sharpen Pencil Sit in assigned seat Complete DOL on own, NO DEVICES.

Roller Coasters By: Mr. Hunter.

ماذا نعني بأن الطاقة كمية محفوظة؟!

Motion Unit Miss McDonald Science 8

6 8 5 Energy Breakout Solutions 750 J 1500 W 225 N 2700 J

AP 1 Energy practice.

Conservation of Energy

An object’s energy can be:

Energy Vocabulary Unit

Energy Bar Graphs Qualitative Examples

What are potential and kinetic energy?

The Pendulum Lab.

Group 1 Group 2 Group 3 Group 4 61 m 35 m 52 m 35 m 63 m 40 m 54 m

Physical Science Section 2.2

Scavenger Hunt Solutions

Motion Section 3 Acceleration

Kinetic Energy Pre-Lab

Group 1 Group 2 Group 3 Group 4 61 m 35 m 52 m 35 m 63 m 40 m 54 m

Notebook Response – Changes in Motion Objective: We will calculate the average speed of a marble using a roller coaster model. Create a line graph that.

FORCE AND MOTION.

In this section you will:

Presentation transcript:

Energy Bar Graphs Quantitative Examples a. Determine the speed of the roller coaster car at point A. B A Frictionless System Car, Track, System System Car, Track, Earth System Car, Since the system is isolated (no external forces) energy is conserved.

Energy Bar Graphs Quantitative Examples a. Determine the speed of the roller coaster car at point A. Initial Energy Flow Diagram Final Ek Eg Ee Ek Eg Ee Ediss

Energy Bar Graphs Quantitative Examples a. Determine the speed of the roller coaster car at point A. Initial Energy Flow Diagram Final Ek Eg Ee Ek Eg Ee Ediss

Energy Bar Graphs Quantitative Examples b. Determine the speed of the roller coaster car at point B. Initial Energy Flow Diagram Final Ek Eg Ee Ek Eg Ee Ediss Initial = ? Initial = top of hill Final = at B

Energy Bar Graphs Quantitative Examples b. Determine the speed of the roller coaster car at point B. Initial Energy Flow Diagram Final Ek Eg Ee Ek Eg Ee Ediss

The Spring Loaded Loop Roller coaster sound, Microsoft Clip Art, (2003), Microsoft Office

Energy Bar Graphs Quantitative Examples System Car, Track, Spring System Car, Track, Spring, Wall System Car, Track, System Car, System Car, Track, Spring, Wall, Earth System Since the system is isolated (no external forces) energy is conserved.

Energy Bar Graphs Quantitative Examples Initial Energy Flow Diagram Final Ek Eg Ee Ek Eg Ee Ediss

Energy Bar Graphs Quantitative Examples Initial Energy Flow Diagram Final Ek Eg Ee Ek Eg Ee Ediss

Energy Bar Graphs Quantitative Examples Initial Energy Flow Diagram Final Ek Eg Ee Ek Eg Ee Ediss

Energy Bar Graphs Quantitative Examples a. Is the box moving at constant speed? Explain.

Energy Bar Graphs Quantitative Examples

Energy Bar Graphs Quantitative Examples Initial Energy Flow Diagram Final Ek Eg Ee Ek Eg Ee Ediss System Box, System Box, Earth System

Energy Bar Graphs Quantitative Examples Initial Energy Flow Diagram Final Ek Eg Ee Ek Eg Ee Ediss

Energy Bar Graphs Quantitative Examples Initial Energy Flow Diagram Final Ek Eg Ee Ek Eg Ee Ediss