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Nitinol Spring NGSS

SKU #HS-620
Review star icon Review star icon Review star icon Review star icon Review star icon (7 reviews)
Availability: In Stock
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What's so special about a piece of coiled wire? Plenty!

Description

What's so special about a piece of coiled wire? Plenty. Our spring is made of nitinol, an amazing metal that can be twisted or straightened but will always return to its original shape when dipped into hot water (~50°C). Talk about discrepant events - this wire is practically magic! An alloy of nickel and titanium, nitinol (Ni-Ti) falls into a sophisticated class of materials known as shape memory alloys that "remember" their original shape. Perfect for classroom demonstrations. Comes with a Teacher's Guide. Wire is 0.75 mm thick, with a 20 mm inner diameter and 45 cm overall length. If you're looking for straight memory wire, please see our Nitinol Memory Wire (HS-6, HS-9 and HS-610), sold by the foot or in 3 inch sample packs.

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Reviews

7 reviews
Nitinol spring
Review star icon Review star icon Review star icon Review star icon Review star icon Oct 6, 2023
Really neat device. Certainly good to expose youth to. Great for teaching science. Add this to your knowledge base.
James C Millener

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Amazing
Review star icon Review star icon Review star icon Review star icon Review star icon Jul 18, 2023
This is amazing! Got the no way response from kids.
ERL

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Awesome exhibit!
Review star icon Review star icon Review star icon Review star icon Review star icon May 24, 2020
Works just as adviertized. Quite mind blowing. Great lesson for metals and crystal structure.
Zachary P Dunlap

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very cool
Review star icon Review star icon Review star icon Review star icon Review star icon Oct 9, 2019
I bought this one for my nephew, a fifth grader, as one of his birthday gifts. He absolutely loves it. I also enjoy watching how he plays with this Nitinol spring.
Feli

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Nitinol Wire and Spring
Review star icon Review star icon Review star icon Review star icon Review star icon Feb 14, 2019
The nitinol wire and spring are a staple of our chemistry outreach program. We have used these as a hands-on activity for kids and for adults at an all adult museum function entitled "Heroes and Villains" where we showed how Superman acquired his strength. The spring was used by first having the audience member distort the spring by pulling on it. Then they connected the spring to the handle of a small bucket partially filled with pennies making sure the wire was securely fastened to the handle. The individual then lifted the bucket by simply raising the spring. Finally, they rested the bucket on the counter and using their finger raised the distorted wire so the bucket was just resting on the counter. Using a hair dryer, the wire was heated and the bucket lifted off the counter as the spring returned to its original shape. (Be sure not to heat the portion of the spring that is attached to the bucket.) A strait piece of nitinol wire was distorted by bending, twisting, or whatever the audience chose to do. (But don't allow them to tie it.) The distorted piece was then either placed in hot water or heated by a hair dryer; it returned to its original straight shape when heated. We have found that the piece of wire, at times, has sprung from the water and flew into the air. Definitely have the audience wear safety glasses when using this method. Using the hair dryer, we have not found this to be a problem, but still have the audience wear safety glasses. We have currently found two uses of memory wire (made of other materials). One is used in braces for teeth. Memory wire is attached to each tooth and secured to the lattice frame work. Each wire it designed to pull the tooth it is attached to in the correct direction desired. The warmth of the mouth is sufficient for the memory wire to slowly go back to its original shape pulling the tooth with it. Another use is in stents that open arteries to keep the artery open and keep it open so blood can flow through it. The stent is in a compressed form, coated with a medicine to help from not being rejected by the body. The stent is inserted through the arm or groin and followed by using X-ray monitors in another room. When inserted in the correct location, the inserting wire is removed and the stent swells (going to its original expanded shape) by the warmth of the body. We were able to visit the local VA to see this operation both from the monitor room and in the actual room where the insertion of the stent took place. Amazing!!!!!
Kenneth Lyle

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14   1

fun!
Review star icon Review star icon Review star icon Review star icon Review star icon Sep 14, 2018
I like to wrap it in a tight coil and watch it leap out of hot water. My students want to see it again and again!
Heidi Reinhardt

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Magical!
Review star icon Review star icon Review star icon Review star icon Review star icon Aug 26, 2016
The video is good but this is awesome in person. I straightened the wire out as best I could and slowly submerged it in hot tap water. It is so strange but it made me smile. Great for close up science.
Mark Carter

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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

2-PS1-2

Students can analyze data obtained from testing different materials to determine which materials have the properties that are best suited for an intended purpose.

2-PS1-4

Students can use the Nitinol Wire in an investigation to construct an argument with evidence that some changes caused by heating or cooling can be reversed and some cannot.

5-PS1-3

Students can use Nitinol Wire to make observations and measurements to identify materials based on their properties.

MS-PS1-2

Students can analyze and interpret data on the properties of substances before and after the substances interact to determine if a chemical reaction has occurred.

MS-PS1-4

Students can use Nitinol Wire to develop a model that predicts and describes changes in particle motion, temperature, and state of pure substance when thermal energy is added or removed.

MS-PS1-6

Students can use Nitinol Wire in the design of a project. Students can construct, test, and modify a device that either releases or absorbs thermal energy.

HS-PS1-5

Students can use observations made of the Nitinol Wire as evidence to provide an explanation about the effects of changing the temperature or concentration of the reacting particles on the rate at which the reaction occurs.

HS-PS2-6

Students will observe and communicate scientific information about why the molecular-level structure is important in the functioning of a material.

Suggested Science Idea(s)

2-PS1-2
2-PS1-4
5-PS1-3
MS-PS1-2
MS-PS1-4
MS-PS1-6
HS-PS1-5
HS-PS2-6

Students can conduct simple tests using Nitinol Wire to understand the rate at which the wire will straighten when immersed in hot water. Students can run trials to evaluate Nitinol Wire based on its properties and/or the reactions.

 

* 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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