Science

Get your physics on!

By Andy D. May 13, 2008 Email This Post Email This Post Print This Post Print This Post Post a comment
YouTube Preview Image

Somebody explain this to me. James Randi showcased this clip at the end of this week’s SWIFT. I don’t think it is Einstein’s special relativity because the motion isn’t uniform. Maybe it is general relativity with warped spacetime? My guess is we are seeing Newton’s third law in action which states that for every action there is an equal and opposite reaction. This feeds back to the first law Newton’s First Law (also known as the Law of Inertia) states that an object at rest tends to stay at rest and that an object in uniform motion tends to stay in uniform motion unless acted upon by a net external force. I will hunt for the answer. I would love for you to answer this for me!

Unlike Sally Kern’s legislation in Oklahoma for religious viewpoints anti-discrimination act (or whatever form of academic freedom they will choose next to slip religion into science class), God did it will not be an acceptable answer!

Disclaimer: The views expressed by an individual contributor to this blog are not necessarily shared by all members of FreeThought Fort Wayne. That is what makes this organization so interesting. Commenters on the FreeThought Fort Wayne blog are expected to abide by our comment policy. About the author:  To change this standard text, you have to enter some information about your self in the Dashboard -> Users -> Your Profile box. Read more from this author

  • Share/Bookmark
Creative Commons License
The Get your physics on! by Andy D., unless otherwise expressly stated, is licensed under a Creative Commons Attribution-Noncommercial-Share Alike 3.0 United States License.
Print This PostTags: , , , , , , , , ,

Discussion

3 comments for “Get your physics on!”

  1. Posted by SkeptigatorNo Gravatar | May 13, 2008, 5:01 pm

    Why it happens? Good question.

    Clearly it has to do with the soda cans that the board is put on. You can notice that the cans move a little. My guess is that on the table the metronomes can’t interact with each other but once placed on the cans the metronomes are able to sync their motions together.

    It also appears it takes a coupe of times before they sync for good which seems to me like their is some kind of “oscillation” in their motions before that go into “permanent” sync.

  2. Posted by neuralgourmetNo Gravatar | May 13, 2008, 6:03 pm

    Andy,

    Skeptigator’s got the right idea. Here’s a page that talks about this effect, first observed by Huygens in 1657, in detail.

    As one metronome’s pendulum bob moves to the right, this pushes the base to the left (because of momentum conservation). The base moving to the left then pushes the other metronome’s pendulum bob to the right—i.e. in the same direction as the first pendulum. Thus the slightly faster pendulum gives a kick (through the base) to the slower metronome causing the slower pendulum to speed up.

  3. Posted by andyscathouseNo Gravatar | May 13, 2008, 10:47 pm

    Wow, that was fast neural. Thanks for the link. I learned something today.

Post a comment

FreeThought Fort Wayne Comments Policy
All commenters on the FreeThought Fort Wayne are asked to abide by the following guidelines:

  • No threatening, hostile or abusive personal messages.
  • Opinions, claims, or arguments are subject to debate.
  • Engage in the argument, do not attack the arguer.
  • Comments may be subject to further review.

XHTML: You can use these tags: <a href="" title=""> <abbr title=""> <acronym title=""> <b> <blockquote cite=""> <cite> <code> <del datetime=""> <em> <i> <q cite=""> <strike> <strong>

Our Readers

Locations of visitors to this page