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搜索邀请的改进算法

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<TITLE>Exhibits Collection -- Amusement Park Physics</TITLE>
<META NAME="keywords" CONTENT="physics, amusement park, roller coaster physics, roller coasters, The Mechanical Universe, bumper cars, carousel, free fall, pendulum, coney island, theme park, scream machine, gravity, inertia, Galileo, Newton, Sir Isaac Newton, laws  of motion, g-forces, mass, acceleration, physical science, physics glossary, mechanical universe, rollercoaster, rollercoasters, " />
<META NAME="description" CONTENT="This interactive exhibit, part of the Exhibits Collection, explores how the laws of physics play a role in the design of amusement park rides. Activities in the exhibit invite visitors to design a roller coaster and determine the outcomes of bumper car collisions. The exhibit also includes related Web sites." />
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<strong>Teachers' Lab</strong><br>The goal of the 
<a href="http://www.learner.org/redirect/ads/teacherslab.html">Teachers' Lab</a> is to provide teachers and educators with a deeper understanding of commonly taught math and science concepts. Many of the Labs are based upon professional development 
<a href="http://www.learner.org/redirect/ads/chnnl_workshops.html">workshops</a> broadcast on the 
<a href="http://www.learner.org/redirect/ads/channel.html">Annenberg/CPB Channel</a>   
<p>You've bought your ticket and boarded the roller coaster. Now you're 
   barreling down the track at 60 miles per hour, taking hairpin turns 
   and completing death-defying loops. Your heart is in your throat 
   and your stomach is somewhere near your shoes. The only thing separating 
   you from total disaster is a safety harness...but are you really 
   in danger?</p>
<p> The designers of the roller coaster carefully crafted this thrilling 
    ride to be just that, but you're actually in less danger than you 
    think. You face a greater threat of injury playing sports or riding 
    a bike than you do on a park ride. Amusement park rides use physics 
    laws to <i>simulate</i> danger, while the rides themselves are typically 
    very safe.</p>
<p> How do physics laws affect amusement park ride design? In this 
    exhibit, you'll have a chance to find out by designing your own 
    roller coaster. Plan it carefully--it has to pass a safety inspection.You 
    can also experiment with bumper car collisions.</p>
<p> Check the physics glossary to find out more about the terms used 
    in this exhibit. Just click on the glossary icon wherever you see 
    it.</p>
<b>Ready to roll? Go on to the first ride:</b> 
<a href="/exhibits/parkphysics/coaster.html">The Roller Coaster.</a> 
<a href="/exhibits/parkphysics/ridesafety.html">Ride Safety </a>
<a href="/exhibits/parkphysics/resources.html">Related Resources</a>
<a href="/exhibits/parkphysics/pendulum.html">Pendulum </a>
<a href="/exhibits/parkphysics/bumpcars.html">Bumper Cars </a>
<a href="/exhibits/parkphysics/freefall.html">Free Fall </a>
<a href="/exhibits/parkphysics/carousel.html">Carousel  </a>
<p>Amusement Park Physics&quot; is inspired by programs from 
<a href="/resources/resource.html">The Mechanical Universe...and Beyond</a>. 
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