On its own, hydrogen peroxide slowly decomposes into oxygen and water.
2 H2O2(aq) → O2(g) + 2 H2O(l)
You are watching: Sharing Chemistry with the Community: ‘Elephant’s toothpaste’
For this reason, fresh bottles of drugstore hydrogen peroxide, labeled 3%, are actually 6%. This is so the hydrogen peroxide remains above 3% at the expiration date, if stored properly. When catalyzed, the rate of decomposition of the hydrogen peroxide increases. Suitable catalysts include yeast, manganese dioxide, “rusty” manganese metal and potassium iodide.
Catalase, an enzyme present in our blood, also catalyzes the decomposition of peroxides, including hydrogen peroxide, which would otherwise be harmful. If you have ever used hydrogen peroxide to clean an open wound, you probably have observed the rapid formation of gas bubbles. These gas bubbles are filled with oxygen from the decomposition of the hydrogen peroxide.
In the demonstration described below potassium iodide is used to catalyze the hydrogen peroxide. More specifically, it is the iodide ion that catalyzes the reaction. The proposed mechanism is as follows:
H2O2(aq) + I-(aq) → IO-(aq) + H2O(l)
H2O2(aq) + IO-(aq) → I-(aq) + O2(g) + H2O(l)
Read more : Chef Gordon Ramsay Recipes
The first step is believed to be the rate determining (slow) step. Recall that catalysts work by proceeding along a different reaction pathway of lower activation energy. Note that the catalyst is involved in the reaction mechanism but is returned to its original form in the final step, enabling it to catalyze the decomposition of additional peroxide molecules.
The iodide is not a perfect catalyst because some reacts with the hydrogen peroxide to form iodine and water. This reduces the amount of iodide available to catalyze the decomposition of the hydrogen peroxide.
2 H+(aq) + 2 I-(aq) + H2O2(aq) → I2(aq) + 2 H2O(l)
I was enticed the first time I saw this demonstration at the ChemEd 89 conference; unfortunately I do not recall the presenter. Since them it has become part of our repertoire of outreach demonstrations. The large scale ‘Elephant’s toothpaste’ demonstration uses 100 mL of 30-35% hydrogen peroxide, a squirt of dish washing liquid, and a few drops of food coloring (just for aesthetics) mixed together in a 1-L cylinder (we use non-graduated cylinders). The cylinder is placed in a plastic tub to catch the overflow and a tarp covers the table to prevent iodine stains in case the mixture spills out of the tub onto the table.
A concentrated solution of potassium iodide is then added to the mixture. Soap bubbles filled with oxygen rise up and out of the cylinder. Condensed steam can be seen coming from the cylinder because the reaction is exothermic. A brown coloration due to the iodine is visible in the soap bubbles. When a glowing wooden splint is inserted into the bubbles it reignites showing that the bubbles are filled with oxygen. A small scale hands-on activity may be performed similarly but with the following changes: 30 mL of 15% hydrogen peroxide, 5 mL of potassium iodide solution, 100-mL graduated cylinders, plastic cafeteria trays and without testing for oxygen (although you can have the participants do this test with close supervision).
Zeena Bhakta performed this demonstration for a large audience of tutors and tutees on campus. The following are her thoughts about learning and performing ‘Elephant’s toothpaste’.
Read more : DIY Hand Sanitizer Spray
I first presented ‘Elephant’s toothpaste’ at the Tutors and Tutees outreach event. This event was set up as a large-scale demonstration with an audience that was mainly comprised of young elementary and middle school students. We introduced ‘Elephant’s toothpaste’ in the format of a story; we asked “Have you ever been to the zoo?” and explained how important it was for elephants to brush their teeth, just like we do. We used a single 1000-mL graduated cylinder to ensure improved visibility and minimal safety hazards. Given the demonstration circumstances, this was a very effective way of presenting ‘Elephant’s toothpaste’ to the community; the entire audience was able to witness the phenomena and we were able to practice chemical safety simultaneously.
My second time demonstrating ‘Elephant’s toothpaste’ was on a much smaller scale, presenting the demo to a few of my classmates. I was able to adjust my demonstration technique and scientific explanation accordingly. For example, I skipped the storytelling aspect of the demonstration completely. I mentioned it as a technique used for a young audience, but then went straight into the scientific detail. It was necessary for them to be knowledgeable about the science behind this experiment.
Throughout the demonstration, I focused on chemical details such as the catalytic activity of potassium iodide and the decomposition of hydrogen peroxide into oxygen gas and water. I performed the splint test to prove that the gas was indeed oxygen. Providing a detailed scientific explanation and an intimate, hands-on experience was an effective way of teaching the foundations of this experiment to future demonstrators.
The ‘Elephant’s toothpaste’ demonstration is no doubt one of the most simple, yet more engaging experiments Duke Chemistry Outreach has to offer, and the student feedback proved just that. It was a topic of discussion long after the demonstration was performed. Several students asked for it to be repeated and others asked about the experiment itself, delving into more scientific detail.
Based on how this demonstration can be modified to accom-modate audiences of varying ages and scientific background, it is clear that ‘Elephant’s toothpaste’ is an outreach classic.
*Zeena Bhakta is a senior at Duke University, majoring in chemistry, with minors in psychology and Spanish. She plans to take a gap year upon graduation to explore her options.
**Dr. Kenneth Lyle is a lecturing fellow at Duke University. The Powell Family Trust, the Duke-Durham Neighborhood Partnership, and Biogen Idec – Research Triangle Park, fund the Duke Chemistry Outreach Program.
Source: https://gardencourte.com
Categories: Recipe
This post was last modified on 26/10/2023 04:31
For all my beauties with dark inner thighs, armpits, bikini area and spots, etc, this…
Are you a passionate cook aspiring to embark on a rewarding culinary journey? Whether you're…
Discover the perfect wall colors to complement your grey kitchen cabinets, creating a harmonious and…
Generally, a 10×10 kitchen remodel ranges from $15,000 to $45,000, but several factors could cause…
Sleek and durable, quartz countertops are the latest trend in kitchen and bathroom renovation. Comparable…
IKEA kitchens are designed to be as simple as possible to assemble and install yourself.…