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UV Beads, Change to Red NGSS

SKU #UV-RED
Review star icon Review star icon Review star icon Review star icon Review star icon (3 reviews)
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Availability: In Stock
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Turn red in ultraviolet light from the Sun or other UV sources.
2 oz. pkg. [~240 beads per pkg.]

Description

uv chart

Watch white beads change to red when taken outside the building! When returned they turn back to white. What causes the change? Humidity? Temperature? Fresh air? Birds flying overhead? The beads contain pigments which react with ultraviolet light from the sun, even on a cloudy day. They also change with most classroom UV light sources. Students can make their own UV light detecting bracelet by stringing the beads on a pipe stem or on a strip of rawhide. Great for teaching UV awareness! Use the beads to test the UV blocking effectiveness of sunblock, sunglasses, windows, etc. Lesson activities are included. The ultraviolet beads will cycle back and forth (to red and back again) over 50,000 times! Approximately 250 beads per package.

All of our UV beads are the same size. Approximate bead dimensions:
diameter 8.5 mm (5/16") - center hole 3.6 mm (9/64")

blog button Read more on our Blog - Chemistry of Ultraviolet Detecting Beads with Video

blog button Read more on our Blog - UV Radiation Activity

Choking Hazard

Video


Lesson Ideas

Download the pdf of our lesson!

We're delighted that the Stanford SOLAR (Solar On-Line Activity Resource) Center, in conjunction with NASA and the Learning Technologies Channel, have incorporated our UV Detecting Beads in their UV light lesson plans. If you're interested in lessons that really GLOW with hands-on activities, you'll want to take a look at these free resources:

42-page Lesson Plan for grades 2-4.

34-page Lesson Plan for grades 5-8.

22-page Lesson Plan for grades 9-12.

Learn more about what makes our UV Light Detecting Beads change colors here.

Download the MSDS of this product.
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Reviews

3 reviews
Yoder
Review star icon Review star icon Review star icon Review star icon Review star icon Feb 13, 2018
I used the red beads, and found that they are much more responsive to long-wave (UV-A) than to short wave (UV-B)
Laurie

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Nice but not as vivid as pictured
Review star icon Review star icon Review star icon Review star icon Review star icon May 2, 2016
We really like the beads and they do noticeably change colors but the color is not as vivid as pictured online.
Laura
Owner Response: The beads change in intensity depending upon the amount of UV light they are exposed to. On a bright sunny day, they should be just as bright as they are pictured.

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uv bead sensitivity diff. due exposure thru window
Review star icon Review star icon Review star icon Review star icon Review star icon Dec 25, 2013
it seems the purple beads give the most intensity when exposed to the sunlight but its position is behind a double pane window (bag is inside house). i was wondering why the red beds seemed to have the least amount of change in color under these conditions. i will take them outside to do further testing. do these colors/beads have different sun sensitivity?
terry
Owner Response: Yes, Terry. The beads vary slightly in sensitivity. The purple is the most sensitive. If you have any UV protection in the glass in your house, it will block some of the most damaging UV radiation. Check the beads when you bring them out into the sunlight or use a UV flashlight.

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NGSS

This product will support your students' understanding of the Next Generation Science Standards (NGSS)*, as shown in the table below.

Elementary Middle School High School

1-PS4-2

Students can conduct investigations showing evidence of illumination from an external source such as the Sun.

1-PS4-4
Electromagnetic Radiation

Objects can be seen only when light is available to illuminate them.

MS-PS4-1

Students can conduct investigations showing evidence that the amplitude of a wave is related to the energy in the wave.

MS-PS4-2

Students can use this tool to develop and use a model to describe how waves are reflected, absorbed, or transmitted through various materials.

HS-PS4-5

Students can use UV Beads to conduct investigations on how technological devices use the principles of wave behavior and wave interactions with matter to transmit and capture energy.

HS-PS4-3

Students can use the UV Beads to evaluate the claims, evidence, and reasoning behind the idea that electromagnetic radiation can be described by a wave model.

HS-PS4-4

Students can explore the idea that different frequencies of light have different energies, and the damage to living tissue from electromagnetic radiation depends on the energy of the radiation.

Suggested Science Idea(s)

1-PS4-2

UV light detectors can be made with these beads. Worn as a bracelet or zip pull, the beads will help students develop awareness of where and when UV light is present.

PS4.B

Objects can be seen only when light is available to illuminate them.

MS-PS4-1

Students can conduct investigations outside with the Outside Detector and make correlations to the Electromagnetic Spectrum and the amplitude of a wave is related to the energy in a wave.

MS-PS4-2

Students can use the beads to test different materials to see if the UV waves are being reflected, absorbed, or transmitted through various materials. Colored beads indicate that waves are transmitted.

HS-PS4-5

Students can use these UV Beads in experiments to support mathematical representations of UV light versus white light.

 

* NGSS is a registered trademark of Achieve. Neither Achieve nor the lead states and partners that developed the Next Generation Science Standards were involved in the production of, and do not endorse, this product.

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