Roller Coaster Physics - PowerPoint Presentation

Slide1

Roller Coaster Physics

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Roller Coaster Physics

An exploration of

energy

as it applies to the science of roller coasters

Draft VersionSlide2

Boarding Information

2

This

icon means that the slide corresponds to a page in the “Roller Coaster Physics Student Packet.”

This icon means that the slide contains one or more links to online

videos or activities

.Slide3

What do you already

know about roller coasters

Scream Roller Coaster at Six Flags Magic Mountain Grand Opening

?

Thunder Dolphin in downtown Tokyo, Japan has a 150 ft dropSlide4

What do you want to

learn about roller coasters

?

The Nemesis roller coaster is Europe’s first inverted coaster. It is locate in Alton Towers, England. Slide5

Answer true or false for each

of the anticipation guide statements.

See page

1

of the student packet

Cedar Point, Sandusky, Ohio. Built in 1976, it was the first roller coaster in the world with 3 inversions.Slide6

A roller coaster has potential energy when it is on top of a hill

Potential energy

is stored energy. It is the energy that an object has because of its position or condition.

A roller coaster on top of a hill, waiting to drop, has potential energy.

The roller coaster has the potential to move due to gravity. The higher it is, the more potential energy it has.Potential energy can also be in the form of stored fuel such as gasoline for a car or food for a person.

Potential energy can change (transform) into kinetic energy. 6

Potential energySlide7

A rollercoaster has kinetic energy when it is moving

Kinetic energy

is the energy an object

has because of its motion.

The amount of kinetic energy an object has is influenced by its mass and speedFor example:A roller coaster that is full of people

has a greater amount of mass than an empty roller coaster. A full roller coaster has more energy and force. This leads to a more thrilling and exciting ride!The higher the first drop, the greater the speed and total energy the roller coaster will have. A taller track gives the roller coaster has more energy than a shorter one.

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Kinetic

enerySlide8

Roller coasters move because of mechanical energy

Mechanical energy

is the energy that an object has because to its motion or position.

An object that has mechanical energy is able to do work and make something move. Mechanical energy is important in the operation of all moving things including roller coasters, simple machines and even you and me.

Mechanical energy is either kinetic (the energy of motion) or potential (stored energy).

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Scenic Railway at Luna Park (Melbourne, Australia), the world's oldest continually-operating roller coaster, built in 1912Slide9

Energy transformation

A

system is a set of parts that are connected in some way.

The Law of Conservation of Energy states that energy can not be created or destroyed in a system. Instead, it must be converted or transformed into another type of energy.

Energy transformation is the process of changing energy from one form to another. An example of energy transformation is what happens when you light a match. The chemical energy stored in the match

is converted into heat energy and light energy.9

Forms

of energySlide10

A roller coaster’s tracks get hot because of energy transformation

As a roller coaster moves along the tracks, mechanical energy (energy related to motion) is changed to heat energy.

Mechanical energy is changed to

heat energy because of

the friction between the roller coaster and the tracks. You can feel the heat if you touch the roller coaster tracks.

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Hot!Slide11

A roller coaster stops because of energy transformation

With each hill, a roller coaster transforms mechanical energy into heat energy. As the ride continues, the coaster has less and less mechanical energy.

The engineers who design roller coasters use math to figure out how much mechanical energy is lost throughout the ride. They make each hill that follows smaller to compensate for this loss.

Eventually the roller

coaster loses most of its mechanical energy and is able to come to a safestop.

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Roller coasters are all about the transformation between potential and kinetic energy

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How roller coasters work

Explore energy transformation

Roller coaster animation

Energy in a roller coaster rideSlide14

Building roller coasters are fun!

A

model

is a representation of a system, object or concept. Models are used to simplify and make things easier to understand.

Mechanical engineers use models to envision their creations. Mechanical engineers manipulate energy using science and math to build the most exciting and safe rides possible.

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Let’s design a roller coaster!

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Design a roller coasterSlide16

Vocabulary

Model:

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Energy

Energy is the ability to do work. Energy is anything that can make matter move or change.

Kinetic Energy

Kinetic energy is the energy

an object has because of its

motion.

Potential Energy

Potential energy is stored energy.

Mechanical EnergyMechanical energy is the energy that an object has because of its motion or position.

System

A system is a set of parts that are connected in some way.

Energy Transformation

Energy transformation is the process of changing

energy from one form to another.

Model

A model is a representation of a system, object or concept. Models are used to simplify and make things easier to understand.Slide17

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How roller coasters work

More roller coaster videos

The physics behind the funSlide18

?

What did you learn

about roller coasters

See page

2 of the student packet

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Review and discuss the anticipation guide statements

See page

3 of the student packetSlide20

Complete and discuss the concept maps

See page

7 - 9 of the student packet

A roller coaster at dorney parkSlide21

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Essential Question #1

In what ways do kinetic and potential energy contribute to an object’s mechanical energy?

See page

10 of the student packetSlide22

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Essential Question #2

What is the nature of energy?

See page

10 of the student packetSlide23

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Essential Question #3

How does energy change forms?

See page

10 of the student packetSlide24

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Essential Question #4

What is the relationship between potential and kinetic energy?

See page

10 of the student packetSlide25

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Essential Question #5

How can you model or diagram energy transformations?

See page

10 of the student packetSlide26

Sources

http://www.physicsclassroom.com

http://www.Brainpop.com

http://inquiry2energy.wikispaces.com/Forms+of+Energy

http://en.wikipedia.org/wiki/History_of_the_roller_coasterhttp://science.howstuffworks.com/engineering/structural/roller-coaster.htm

http://teacherknowledge.wikispaces.comhttp://en.allexperts.com/q/Physics-1358/2010/11/Roller-Coaster-Question.htmhttp://www.cramster.com/answers-mar-08/physics/roller-coaster-350-roller-coaster-starts-rest-pointand-slid_207911.aspx?rec=0

http://davidguo-sph3u.blogspot.com/http://www.funderstanding.com/aboutus/philosophy/learning-by-doing/roller-coasterhttp://www.mwit.ac.th/~physicslab/applet_04/physics_classroom/Class/energy/u5l2bb.html

http://www.ehow.com/how_7821557_draw-roller-coaster-demonstration-physics.html

http://mehdisprephysics.blogspot.com/2010/10/paper-roller-coaster-physics-project.html

http://www.coasterdynamics.com/CoasterDynamics/CLabIntro.html

http://www.erinfinnegan.com/sam/?cat=17

http://da771us.blogspot.com/http://www.indiabix.com/engineering-mechanics/kinetics-of-a-particle-work-and-energy/013002http://gallery.hd.org/_c/natural-science/match-igniting-AJHD.jpg.htmlhttp://inquiry2energy.wikispaces.com/Forms+of+Energyhttp://www.buzzle.com/articles/physics-of-roller-coasters.htmlhttp://www.tcpalm.com/photos/galleries/2011/may/23/new-offerings-floridas-theme-parks/http://www.learner.org/interactives/parkphysics/coaster/http://fzxxprj.wikispaces.com/transformation+of+energy+in+a+roller+coaster26