Reply To: Dry Ice Experiments

Landing Page Forums Activities Arts and crafts Dry Ice Experiments Reply To: Dry Ice Experiments



<b data-reader-unique-id=”titleElement”>Make Frozen Bubbles<b data-reader-unique-id=”subheadElement”>Frosty Fun Science With Dry Ice

<div><div data-reader-unique-id=”59″>By <div data-tooltip=”” data-tooltip-position-x=”left” data-tooltip-position-y=”top” data-reader-unique-id=”61″>Anne Marie Helmenstine, Ph.D.

<div data-reader-unique-id=”64″>Updated June 04, 2020

<div data-reader-unique-id=”1″>

Dry ice is the solid form of carbon dioxide. You can use dry ice to freeze bubbles solid so that you can pick them up and examine them closely. You can use this project to demonstrate several scientific principles, such as density, interference, semipermeability, and diffusion.

<b data-reader-unique-id=”6″>Materials Needed <div data-reader-unique-id=”8″><ul data-reader-unique-id=”9″><li data-reader-unique-id=”10″>Bubble Solution (from the store or make your own)<li data-reader-unique-id=”11″>Dry Ice<li data-reader-unique-id=”12″>Gloves (for handling the dry ice)<li data-reader-unique-id=”13″>Glass Box or Cardboard Box

<b data-reader-unique-id=”16″>Procedure <div data-reader-unique-id=”18″>

    <li data-reader-unique-id=”20″>Using gloves to protect your hands, place a chunk of dry ice in the bottom of glass bowl or cardboard box. Glass is nice because it’s clear.<li data-reader-unique-id=”21″>Allow about 5 minutes for carbon dioxide gas to accumulate in the container.<li data-reader-unique-id=”23″>Blow bubbles down into the container. The bubbles will fall until they reach the layer of carbon dioxide. They will hover at the interface between air and carbon dioxide. The bubbles will start to sink as the bubbles cool and the carbon dioxide replaces some of the air within them. Bubbles that come into contact with the dry ice chunk or fall into the cold layer at the bottom of the container will freeze! You can pick them up for closer examination (no gloves needed). The bubbles will thaw and eventually pop as they warm.<li data-reader-unique-id=”24″>As the bubbles age, their color bands will change and they will become more transparent. The bubble liquid is light, but it is still affected by gravity and is pulled to the bottom of a bubble. Eventually, the film at the top of a bubble becomes so thin that it will open and the bubble will pop.

<b data-reader-unique-id=”28″>Explanation <div data-reader-unique-id=”30″>

Carbon dioxide (CO<sub data-reader-unique-id=”33″>2</sub>) is heavier than most of the other gasses present in air (normal air is mostly nitrogen, N<sub data-reader-unique-id=”34″>2</sub>, and oxygen, O<sub data-reader-unique-id=”35″>2</sub>), so most of the carbon dioxide will settle to the bottom of the aquarium. Bubbles filled with air will float on top of the heavier carbon dioxide. Use a tutorial for calculating molecular mass, in case you want to prove this for yourself.

<b data-reader-unique-id=”40″>Notes <div data-reader-unique-id=”42″>

Adult supervision is recommended for this project. Dry ice is cold enough to give frostbite, so you need to wear protective gloves when handling it.

<div data-reader-unique-id=”46″>

Also, be aware that extra carbon dioxide is added to the air as dry ice vaporizes. Carbon dioxide is naturally present in air, but under some circumstances, the extra amount can present a health hazard.