DAY 1- COMPUTER RESEARCH/ ROLLER COASTER HISTORY

Ø  You WILL need headphones for this webquest. I suggest bringing/using your own.

Ø  Log on to the following website for links to all of the websites/videos necessary to -complete your research: http://my.portaportal.com/

Ø  Sign in as a guest using the Guest Name: sciencerc as shown here:

Day 1 - Task A: Define the following terms (4 points each)

Introduction: Why Roller Coasters? Because they’re awesome thrill-seeking, scream-provoking, vomit-inducing machines! Even though these rides feel dangerous, they’re actually very safe inventions designed to feel as if you’re breaking all rules of science. Are they breaking any rules? Of course not,physicsplays a huge role in the design, motion, & fun of roller coaster.

Watch “Build It Bigger: Kinetic Madness” go to: http://www.discovery.com/tv-shows/other-shows/videos/build-it-bigger-kinetic-madness.htm (2 minutes)

What is your favorite part of a roller coaster? ______

For definitions, go to http://www.learner.org/interactives/parkphysics/glossary.html

KINETIC ENERGY-
(definition) / Own words-
Picture- / Related to Roller Coasters-
POTENTIAL ENERGY -
(definition) / Own words-
Picture- / Related to Roller Coasters-
ACCELERATION-
(definition) / Own words-
Picture- / Related to Roller Coasters-
CENTRIPETAL FORCE -
(definition) / Own words-
Picture- / Related to Roller Coasters-
G (FORCE)-
(definition) / Own words-
Picture- / Related to Roller Coasters-
NEWTON’S 2ND LAW -
(definition) / Own words-
Picture- / Related to Roller Coasters-

Day 1 - Task B: BrainPOP- Potential Energy (PE) & Kinetic Energy (KE)- (1/2 point each)

Step B: What is energy?

Watch both BrainPOP videos, absorb the knowledge and then answer the following questions. It will be too difficult to answer the questions as you’re watching the video clips! You can always watch a second time if needed.

1)  Kinetic Energy: http://glencoe.mcgraw-hill.com/sites/dl/free/0078600499/161752/00035806.html

2)  Potential Energy: http://glencoe.mcgraw-hill.com/sites/dl/free/0078600499/161383/00035807.html

Follow-up Questions for BrainPOP videos: (1/2 point each)

1.  KE & PE are the 2 types of energy that relate to:

a.  Change c. Density

b.  Friction d. Motion

2.  Which object has the most PE?

a.  A ball resting on the ground

b.  A ball thrown at 100 mph

c.  A ball on top of a refrigerator

d.  A ball resting on a cliff

3.  When does a yo-yo have the most PE?

a.  When it’s at its highest point

b.  When it’s at its lowest point

c.  When it’s moving between it’s highest & lowest point

d.  When it’s moving at top speed

4.  When is PE transformed into KE?

a.  When an object at rest is lifted to a higher elevation

b.  When an object at rest remains at rest

c.  When an object at rest is put into motion

d.  When an object in motion is stopped and put at rest

5.  Which is the best synonym for PE?

a.  Stored energy

b.  Energy of motion

c.  Energy due to gravity

d.  Mechanical energy

6.  Why do object at high elevations have more PE than objects at low elevations?

a.  Because the thinner air at higher elevations means objects have a greater potential to move fast

b.  Because gravity gives objects at high elevations the potential to fall much further

7.  The amount of KE an object has depends on its

a.  Mass & volume c. mass & speed

b.  Volume & friction d. Speed & density

8.  Which of the following has the most KE?

a.  A car traveling at 80 kph

b.  A tractor-trailer traveling at 80 kph

c.  A cheetah running at 80 kph

d.  A motorcycle traveling at 80 kph

9.  When is KE transferred from object to object?

a.  When those objects pass one another

b.  When the first object outweighs the second object

c.  When the first object has more PE than the second object

d.  When those objects collide

10.  There is a finite amount of energy in the universe. What does this mean? (opposite of infinite)

a.  Energy is destroyed & created all the time.

b.  There is a limited amount of energy in the universe.

c.  Stars generate most of the energy in the universe

Day 1 - Task C: Kinetic and Potential Energy in Roller Coasters -

So, what do PE & KE have to do with roller coasters? Glad you asked! A TON, actually.

1) First, watch:Millenium Force Roller Coaster, Front Seat: http://mbc.sandi.net/library/80830

2) Then, use the following animation(FLASH only) http://www.pbslearningmedia.org/asset/mck05_int_rollercoaster/

3) What does Wile E. Coyote have to do with Potential Energy? Check out this video:

http://s1141.photobucket.com/user/erschu/media/coyote_energy.mp4.html

4) Describe what happens to the amount of potential and kinetic energy for 2 of the 3 animations shown here.
......
animation 1: http://mrsgillumscience.com/12Reg_Sci/13RollerCoaster/rc_art/dpe.gif

animation 2: http://mrsgillumscience.com/12Reg_Sci/13RollerCoaster/rc_art/dpe2.gif

animation 3: http://mrsgillumscience.com/12Reg_Sci/13RollerCoaster/rc_art/dpe3.gif

Animation #_____:______

______

Animation #_____:______

______

Day 2 - Task A: History of Roller Coasters (1 point each)

Go to the following website: http://kids.britannica.com/coasters/, click on the words “Russian Mountains”.

1.  When & where did the first roller coasters appear? ______

2.  What was the first coaster made of? ______

3.  The coasters were eventually brought to Paris in ______in the form of Les Montagnes Russes. Small wheels were added to the sleds, but little attention was given to ______. Oddly enough, the injuries that passengers suffered from runaway cars ______attendance.

You will need to skim through the other parts of the timeline to answer the following questions:

4.  At the turn of the century, trolley companies built amusement parks at the end of their lines to attract riders. The best-known trolley terminus was ______in New York City.

5.  Approximately how many coasters are in the world? ______

Go to the Roller Coaster Record Book: http://www.ultimaterollercoaster.com/coasters/records/

6.  What & where is the largest (in length) steel coaster? ______

Ø  How big is it? ______

7.  What & where is the fastest steel coaster? ______

Ø  How fast is the fastest steel coaster? ______

Day 2 - Task B: Successful Designs (1 points each)

Watch “How Roller Coasters Work” video clip. http://videos.howstuffworks.com/howstuffworks/4661-how-roller-coasters-work-video.htm. Pause the video as needed to answer the questions.

1.  What are the 3 basic parts of a roller coaster?

1)
2)
3)

2.  Is it easier to turn a wooden or steel roller coaster upside down (loops, cork screws)?

3.  How does a roller coaster start?

4.  When gravity pulls a roller coaster train down the hill, what is being built up?

5.  Why is building up momentum important? (What does it allow the train to do?)

6.  How does a roller coaster end (exit)?

Day 2 - Task C: Existing Roller Coasters (4 points)

Using the websites listed below, complete the data collection sheet to gather information regarding the types, height, speeds, & lengths of roller coasters from various amusement parks.

Ø  http://www.sixflags.com/magicMountain/rides/ThrillRides.aspx

Ø  http://www.cedarpoint.com/things-to-do/roller-coasters

Ø  http://www.visitkingsisland.com/things-to-do/soak-city-waterpark

Name of Coaster / Notable Features / Height / Length / Top Speed

Watch the Kingda Ka Roller Coaster at Six Flags in New Jersey. It's being tested so there are no passengers. Why do you think this happens? http://www.youtube.com/watch?v=oNYzj6tw7XA&feature=related

______

______

Day 2 - Task D: Roller Coasters Elements (6 points – 2 points each)

We’re not talking about the periodic table here…

Ø  A roller coaster element is part of the track, often a corkscrew or flip, something that makes some people want to puke.

Ø  There are many different elements of a roller coaster.

Ø  Choose 3 of the "elements" listed below and explain what they are AND what they do.

Roller Coaster Elements:
Batwing ..... Butterfly Inversion ..... Camelback.... Cobra Roll....Corkscrew .... Diving Loop .... Hammerhead Turn .... Heartline Roll .... Horseshoe .... Immelmann Loop .... Norwegian Loop .... Pretzel Loop .... Raven Turn .... Sea Serpent Roll .... Top Hat ..... Vertical Loop


Use the sites listed below, or just "Google" the terms:

Ø  Wikipedia's Roller Coaster Thrill Elements: http://en.wikipedia.org/wiki/Roller_coaster_elements#Thrill_elements

Ø  Roller Coaster Database Glossary:http://www.ultimaterollercoaster.com/coasters/glossary/

#1:______/ #2:______/ #3:______

Day 2 – Task E: Design & Planning Engineer Video - (1 point)

Watch a video of a roller coaster designer: http://pbskids.org/designsquad/video/roller-coasters/

1. List 2 things you learned from watching this video.

1)

2)

Day 2 – Task F: Design & Planning - (1 point each)

Now you will be using the Google search engine (www.google.com) to find the answers to the following questions.

1.  Draw a picture of a clothoid loop and a circular loop.

2.  Why is a clothoid loop preferential to a circular loop?

3.  List 3 differences between wooden and steel coasters? (not including the material they are made of)

1)


2)

3)

Day 3 – Task G: Roller Coaster Motion (5 points)

First watch: Time Warp Roller Coaster Science:
http://www.discovery.com/tv-shows/other-shows/videos/time-warp-roller-coaster-science.htm

I bet you didn’t know that…

Ø  Roller coasters use an engine to power the coaster ONLY AT THE VERY BEGINNING.

Ø  They’re dragged up to the top of the first hill, but from then on, no more external energy is added.

Ø  You have to admit that’s pretty cool.

Ø  But the big question, the question of the day, is… why?How does a roller coaster continue to move through the twists and turns of a track if it only uses an engine at the very beginning?

Check out these sites to find the answer:

Ø  Energy Transformation on a Roller Coaster: http://www.physicsclassroom.com/mmedia/energy/ce.cfm

Ø  Energy of a Roller Coaster: http://www.regentsprep.org/Regents/physics/phys02/rolcoast/default.htm

Ø  Watch: Energy Conservation on Roller Coasters: http://mbc.sandi.net/library/117260

Using the information you just gathered, how does a roller coaster continue to move through the twists and turns of its track if it only uses an engine at the beginning? (Use at least 3 sentences to explain) ______

______

______

______

Ø  If you still need help understanding, how this happens and answering the question above go to the following website: http://science.howstuffworks.com/engineering/structural/roller-coaster3.htm

Congratulations! You are now ready to start building a model roller coaster!


Physics and Roller Coasters: Part 2

Name: ______Due By: ______Period: _____ Total Points Earned: ______/20

What is Energy? (Use Forces, Motion and Energy text books)

1.  Energy & Work – Working Together (page 124)

Ø  Energy is the ability to do ______.

Ø  Work occurs when a ______causes an object to move in the ______of the force.

Ø  The unit used to measure work & energy is the ______

2.  Kinetic Energy (page 125)

Ø  Do all moving objects have kinetic energy? ______

Ø  Kinetic Energy Depends on ______& ______

Ø  The equation for Kinetic energy [KE] is:

Ø  The ______an object is moving, the ______kinetic energy it has.

Ø  The ______the mass of a moving object, the greater its ______energy is.

3.  Potential Energy is Energy of Position (page 126)

Ø  Potential energy [PE] is the energy an object has because of its ______

Ø  One example of an object with potential energy is ______

Ø  Gravitational Potential Energy Depends on ______& ______

Ø  The equation for gravitational PE is:

4.  Mechanical Energy Sums It All Up (page 127)

Ø  Mechanical energy is ______

Ø  What is the equation for mechanical energy?

Energy Conversion (pages 132 – 137)

5.  An energy conversion is a ______

6.  From Kinetic to Potential & Back

Ø  Complete the figure to the right.

7.  Conversions Involving Chemical Energy (p 133-134)

What are 2 examples of converting energy?

Ø  ______to ______

Ø  ______to ______

Conservation of Energy

8.  Where does the energy go? (page 138)

Ø  On a roller coaster, where is PE the greatest? ______Least? ______

Ø  What force prevents an object’s PE from converting into KE? ______

Ø  When energy is used to overcome friction, some of the energy is converted into ______energy

9.  Energy Is Conserved Within a ______System (page 139)

Ø  A closed system is a group of objects that ______energy between one another.

Ø  An example that involves a roller coaster consists of the track, the ______, & the surrounding ______.

Ø  On a roller coaster, some mechanical energy (KE + PE) is transferred into ______energy (because of friction) & ______energy (because of the noise). Overall, you end up with the ______total amount of energy as the original amount of ______energy.

Ø  The law of conservation of energy says that energy can neither be ______nor ______.

Ø  One example of conservation in a closed system is a light bulb. While not all of the original ______is converted into light energy, no energy is ______.

What is Momentum? (page 52) (Use Forces, Motion and Energy text books)

1.  Momentum, Mass and Velocity

Ø  Momentum is a property of a moving object that depends on the object’s ______& ______

Ø  If a compact car & a large truck are traveling with the same velocity, it takes longer for the ______to stop than it does for the ______if the same braking force is applied.

Ø  Likewise, it takes longer for a ______moving car to stop than it does for a ______moving car with the same mass.

Ø  The more momentum an object has, the harder it is to ______the object or change its ______.

2.  Momentum is Conserved

Ø  When a moving object hits another object, some or all of the momentum of the first object is ______to the other object.

Ø  Figure 2 The momentum ______a collision is ______to the momentum ______the collision.

Ø  This example illustrates the law of ______of ______.