Category: Fun Science Activity (Page 42 of 112)

The Chemistry of Rust (Oxidation)

That reddish-brown crud we call “rust” is all around us, yet we probably rarely think much about it. It turns out what we call rust is a chemical process that combines iron (Fe) and oxygen (O) to form iron oxide. Thus, by studying rust we are studying chemistry!

The chemical formula is:  4Fe + 3O2 = 2Fe2O3

What is happening? During this reaction the iron atoms are passing electrons to the oxygen atoms, a transfer that is called oxidation. In the process the atoms are bound together.

rust-nails

Rust Experiments

Because it is a slow process, doing experiments with rust takes a few days.

1. What rusts? (Preliminary free exploration)

Gather:

  • paper clips, small bolts, metal washers and any other small metal objects to check for rusting – let the children brainstorm and gather samples as appropriate
  • include some items that probably won’t rust such as pennies or brass brads
  • container to hold water
  • water

Place a sample of all the objects in a container of water and check them every day for a few days. Leave the rest of the objects nearby or in a similar dry container to compare what happens. See which objects start to show signs of rust and which do not. Let the children touch and smell the objects that have rusted. Do they feel different? Do they smell? Do they look different?

2. What environmental conditions are needed for iron to rust?

Can iron rust in dry air or is water needed? Does the presence of acids, such as acid rain, speed up rust? What about salt? Do the salty roads in winter or salt spray from the ocean really make cars rust faster? What happens when the tannins in tea meet iron/rust? Let’s find out.

Gather for each participant:

  • fine steel wool (from paint stores or home supply centers- see note below)
  • water
  • white vinegar
  • table salt
  • teaspoon measure
  • tea bags, hot water and container for making tea
  • tape and marker for labels
  • 5 beakers or similar containers
  • paper and pen or pencil to record results

steel-wool

Note:  Why fine steel wool? The coarser steel wool you get to clean dishes is stainless steel, which is resistant to rust. For another experiment, get samples of both and try them side by side.

Note 2: The tea isn’t central to the question, but does react quickly which may engage impatient youngsters who might otherwise lose interest. You may definitely omit it.

Prepare the tea by soaking one or two tea bags in hot water in a container such as a tea mug for about three minutes. Stir briskly and discard tea bags.

Make saltwater by adding 2 teaspoons of salt per 8 ounces of water and stirring.

Label the containers:

  1. water
  2. saltwater
  3. vinegar
  4. tea
  5. air

Pour 4 ounces (1/2 cup) or roughly 120 ml of water into the first container. Add 4 oz or 120 ml of saltwater to the second container. Add 4 ounces white vinegar to the third container and 4 ounces of tea to the fourth. Leave the 5th container dry.

Break off pea to marble-sized balls of steel wool and roll into 5 small balls. Try to use a consistent amount for each container. Drop the steel wool into each container. Some may float, which is okay.

tea-and-water-pretest

Rust experiment, before set-up.

tea-darker-after15

Check what is happening after 15 minutes.

tea-left-water-right

After 15 minutes the tea probably has started to darken. The steel wool will have turned black. In the photograph above the steel wool that was in the tea is on the left and steel wool that had been in plain water is on the right.

What is happening? The tannins in the tea are reacting with the iron and rust in the steel wool to make iron tannate. Iron tannate is very stable and people are investigating its use to prevent metals from rusting.

Check again after 24 hours.

rust-at-24hours

The tea, on the right, has turned black with a concentration of iron tannates. The water, on the left, and the saltwater (not shown) are turning brown and the steel wool is beginning to rust.

The vinegar (center) is still clear and the steel wool is not showing rust. Why not? One reason might be that the vinegar has been setting on a shelf in a closed jar and might not have much oxygen in it. How would you test this?

The dry steel wool is not rusting either. Even though the chemical equation shows that only iron and oxygen are needed, the chemical process actually needs some water or another catalyst to be present to get the reaction going.

Record your results again after 48 hours. What has changed? Use your results to plan more experiments.

Can you tell me…

why we paint metal objects like the San Francisco bridge?

_______________________________

A word of caution to educators:

During preparation for this post I came across a couple of references to experiments that promised “fast rust.” These experiment required mixing bleach and vinegar. Mixing bleach and vinegar is not a good idea! The acid reacts with the bleach releasing chlorine gas. In small amounts the chlorine gas reacts immediately with the iron to give iron chloride, which looks like rust. If you add an excess amount, however, toxic chlorine gas might possibly be released.

About.com has more information

Here Comes Comet Pan-STARRS

In case you haven’t heard, Comet Pan-STARRS is passing by this month (March 2013). If conditions are optimal it might be possible to see the comet on certain evenings without a telescope. One of the first evenings is tonight, March 7, 2013.

NASA has details in this video:

 
For more information, try:
Everything you need to know: Comet PANSTARRS in March 2013 at EarthSky

Bright Comet Pan-STARRS in Night Sky: How to See It at Space.com

Let us know if you get to see it.

Discovering New Species of Animals

For STEM Friday today we are going to take a look at the new children’s book Wild Discoveries: Wacky New Animals by Heather L. Montgomery. wild-discoveries

The book features thirty amazing newly-discovered creatures, ranging from hot pink millepedes to see-through frogs like the one shown on the cover. As Heather points out in the beginning of the book, these are not really “new” species, but that scientists have simply recently discovered and named them. The species are organized by region, helping to define habitats. The description of each animal is accompanied by fun facts and details about how they were found. (Unsure of what a species is? See a review of classification.)

Humans love exploration, so finding a new species is a thrill. Scientists often turn up new species by searching in hard to reach places, like the depths of the oceans. Other times they can stumble across a new species in their own back yard! Searching for new species is definitely within the realm of citizen science. In fact, this article from BBC News suggests that 60% of new species found in Europe are discovered by amateur enthusiasts. As Wild Discoveries reveals, age in no limit. Children have helped to uncover new species.

Inspired by these ideas? How would you find a new species yourself?

1. Learn about a group of animals, plants or fungi that interests you.

Choose a group that isn’t too popular. Although new mammals and birds are found occasionally (a new monkey, a sengi, and a tarsier are described in the book), your chances of finding a new species increase greatly if you choose to look for animals without backbones, for example. If you learn the common species of a group that occur in your area, you will be able to recognize something new if you stumble upon it.

2. Get out and observe nature, and record what you see.

Keeping a nature journal or blog can be a great way of recording your findings. Take photographs when you find something new. New species have been recognized from photographs on sharing sites like Flickr.

3. Volunteer at a nearby natural history museum, aquarium or similar organization.

Take opportunities to learn with an expert. One of the girls from the book got to name a new species because she volunteered at the Santa Barbara Museum of Natural History.

4. Take part in a  BioBlitz.

5. Be realistic. Realize that sometimes it is simply a matter of luck, or as Heather Montgomery writes, being “in the right place at the right time.”

Activity for youngsters:
Draw an imaginary new species or one of the species from the book.

Activity for older students:
Research a newly-discovered species. Write a report on what is known about it and how it was found. Even better, create a slide presentation or video and share it with your friends or classmates.

For inspiration, here is one of the cool newly-discovered species:  the green bomber worm.

For more information:

Arizona State University has a Top 10 list of new species each year.

**Heather L. Montgomery’s website has related materials and a free lesson plan with 40 pages of great lessons.**

Reading level: Ages 7 and up
Paperback: 64 pages
Publisher: Scholastic Paperbacks (February 1, 2013)
Language: English
ISBN-10: 0545477670
ISBN-13: 978-0545477673

 

Book supplied by publisher for review purposes.

Come visit the STEM Friday blog each week to find more great Science, Technology, Engineering and Math books.

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