Micro LEDs and Motion

July 21, 2012

Bruce Yearnyby: Bruce Yeany

The micro LED lights  known as Rave lights have become popular with students at dances and parties.   With the  lights turned down, kids have these lights on their hands or in gloves, and the results are totally awesome when they wave their hands around.  Watching this phenomenon takes me back to the era of the disco ball and laser light shows.  It became apparent to me that these little lights would be fantastic when incorporated into the study of motion. Using these lights and a digital camera, it would be fairly easy to record the motion of moving objects for closer study.  Rolling, spinning , swinging, falling, projectile motion, etc. can all be captured using a camera and these little lights.

Can you figure out how these were done?

Micro LEDs and Motion - Educational Innovations Blog

Micro LEDs and Motion - Educational Innovations Blog Read the rest of this entry »

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Posted by Tami O'Connor

The Speed of the Bubble Apparatus

April 28, 2012

Cynthia Houseby: Cindy House

Bubbles in tubes offer many advantages over spheres on ramps for velocity and acceleration experiments:

  • The bubble stays in the tube! There are no escaped marbles to chase down.
  • The bubble moves more slowly than a marble, permitting more accurate determination of elapsed time.
  • Results are highly reproducible.
  • Many data points can be collected in a short period of time.

The Speed of the Bubble Apparatus | Educational Innovations

A Speed of the Bubble Apparatus to hold and protect the tube is easy to construct from scrap and/or inexpensive materials. It enables even very young students to obtain highly reproducible data quickly. It also protects the tubes from being damaged if dropped or bumped.  Plans and suggested materials are included in this blog. The following experiment is one I use with the elementary students in our after school science club. Read the rest of this entry »

5 Comments | Elementary level, experiments, High School level, Middle School level, Physics | Tagged: , , , , , , , , , , | Permalink
Posted by Tami O'Connor

Growing Spheres Help Students Absorb Scientific Principles

March 14, 2012

John Fedors, Educational Innovationsby:  John Fedors

Hydrophilic spheres from Educational Innovations offer a variety of interesting applications and opportunities for scientific inquiry. They come in a variety of sizes: regular, jumbo, & gigantic. For the following examples, I prefer the regular or #710 size. However, whichever size you choose, they will expand to about 300 times their original dehydrated size.

Growing SpheresAs they absorb the water, they become almost invisible, due to having the same refractive index as water. When placed in de-mineralized or distilled water and kept away from sunlight, they will dehydrate to their original size and can be re-used. Dehydration time will depend on air humidity.

Once enlarged, these clear spheres can be used to demonstrate:

* The lens of an eye (such as those of a shark, calf or sheep) that has the ability to magnify the print on a page. A thin slice may be used to mimic a cornea transplant.

* The suspension of small items such as a coin.

* Roots of a germinating seed.

Enlarged growing spheres can also help to observe the relationship of Surface Area (A=4pr2) to Volume (V=4/3pr3) mass in grams. They can be used to graph relationships. Read the rest of this entry »

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Posted by Tami O'Connor

Coupled Pendulums with Video

December 2, 2011

Marty Sagendorfby:  Martin Sagendorf

One Pendulum…

Is interesting, but…

Two Pendulums…

Are much more interesting.

 But only if they are coupled pendulums.

Read the rest of this entry »

4 Comments | College level, energy, experiments, High School level, Middle School level, Physics | Tagged: , , , , , , | Permalink
Posted by Tami O'Connor

101 Things Everyone Should Know About Science

November 26, 2011

Dia Michelsby:  Dia Michels

Science affects everything—yet so many of us wish we understood it better. Using an accessible question-and-answer format, 101 Things Everyone Should Know About Science expands every reader’s knowledge. Key concepts in biology, chemistry, physics, earth, and general science are explored and demystified by an award-winning science writer and a seasoned educational trainer. Endorsed by science organizations and educators, this book is perfect for kids, grown-ups, and anyone interested in gaining a better understanding of how science impacts everyday life.  101 Things Everyone Should Know About Science, written by Dia Michels and Nathan Levy is offered by Educational Innovations for $9.95.

Sample Questions from 101 Things Everyone Should Know About Science!

1.  Name some characteristics of all mammals
2.  Name three of the bodily fluids
3.  What are the three states of water?
4.  What mineral is found in a saline solution?
5.  What do we use calories to measure?
6.  What happens over time when iron is exposed to oxygen?
7.  At the same pressure, which is more dense—hot air or cold air?
8.  How does a semiconductor work?
9.  Each year, Earth revolves once around what?

  • the Sun
  • the Moon
  • its axis
  • the Milky Way

10.  What are the four major directions? In which direction does the needle of a compass point?
11.  The continental divide separates:

  • which animals are nocturnal and which are diurnal.
  • the Northern Hemisphere from the Southern Hemisphere.
  • the direction water travels to the sea.
  • where it rains from where it snows.

12.  Why is it colder an hour after sunrise than it is at sunrise itself?
13.  What is a hypothesis?
14.  What is the goal of a double-blind, placebo controlled study?
15.  How can you use a lemon to light a light bulb?
 

Answers:

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8 Comments | Biology, Chemistry, Earth Science, Elementary level, High School level, Middle School level | Tagged: , , | Permalink
Posted by Tami O'Connor

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