Metamorphic Magic Plastic
In this “trash-to-treasure” activity, polystyrene clamshell containers (#6 plastic) are used to make hard plastic art pieces. When polystyrene clamshell containers are produced, the material is heated and stretched into a mold, thus locking the material in an extended state. When this material is heated again, it returns to its unstretched size and shape. This property can be utilized to create a range of crafts, including buttons, key chains, luggage tags and jewelry. If students mass their plastic before and after, this could also be tied to the Law of Conservation of Mass.
- Law of Conservation of Mass / Physical Change / Polymers
- 3.3c / CH.3 / CH.6b / K.11b / PS.5a / PS.5b
Pressure Cooker
In this demonstration, warm water is placed in a plastic syringe, the syringe is sealed, and the plunger is pulled back causing the water to boil. The water boils because the action of pulling back the plunger increases the volume, thus decreasing the pressure. The boiling point of a liquid is dependent on the pressure of the system, so a decrease in pressure leads to a decrease in boiling point.
- Boyle's Law / Physical Change / Pressure / Vaporization
- 2.3c / 3.3c / 5.4b / 6.5b / CH.5a / CH.5b / CH.5d / K.5a / PS.5a / PS.7b
Balloon Kabobs
In this demo, a skewer is pierced through a balloon without popping it. The balloon is made from a rubber polymer. The polymer is made of many long, elastic, overlapping chains, very similar to spaghetti. When a skewer pierces the balloon, these chains are stretched and pushed open to make a hole for the skewer and the balloon does not pop. It is important to pierce the balloon near the bottom & top, where the rubber has the least amount of stress. The polymer is more able to stretch and rearrange, allowing the skewer to pass through.
Marshmallow Magic
When a marshmallow is placed in a large capped syringe and the plunger is pushed in, the air in the marshmallow contracts from the pressure. Conversely, if the plunger is pulled back, the pressure decreases causing the air in the marshmallow to expand.
- Boyle's Law / Physical Change / Pressure / Uses Household Items
- 3.3c / CH.5a / CH.5b / PS.5a
Liquid Nitrogen Ice Cream
Liquid nitrogen is -196˚C and quickly freezes the ingredients into ice cream. The nitrogen boils out leaving deliciously creamy ice cream. The “fog” that we see is condensed water vapor though, not nitrogen gas.
- Condensation / Cryogenics / Freezing / Mixtures / Physical Change / Problem Sets / Vaporization
- 2.3c / 3.3a / 3.3c / 5.4b / 5.4e / CH.2h / CH.5d / PS.2b / PS.5a / PS.7b
Shrink A Balloon
When a balloon is placed in liquid nitrogen the air inside it is condensed from the cold (-196°C), causing the balloon to shrink. Once the balloon is removed it will regain its size as the air heats up. Liquid nitrogen boils at room temperature. The “fog” that we see is condensed water vapor though, not nitrogen gas.
- Condensation / Cryogenics / Gas Laws / Lesson Plans / Physical Change / Problem Sets / Vaporization / Videos
- 2.3c / 3.3c / 5.4b / CH.5b / CH.5d / PS.5a / PS.7b
Shatter a Flower
When a flower is dipped in liquid nitrogen (-196°C) it is instantly frozen. Liquid nitrogen boils at room temperature. The “fog” that we see is condensed water vapor though, not nitrogen gas.
- Condensation / Cryogenics / Physical Change / Vaporization
- 2.3c / 3.3c / 5.4b / CH.5d / PS.5a / PS.7b
Rainbow in a Beaker
Sugar solutions that have different concentrations have different densities; the more sugar in a solution the more dense it is. Therefore less dense solutions can be layered on top of denser ones.
- Density / Miscibility / Physical Change / Uses Household Items
- 3.3c / CH.2h / PS.2d / PS.5a
Pepper in Water
Water has a very high surface tension because of the strong hydrogen bonding between water molecules, which allows the pepper to float on top of the water. When a small amount of soap is added it forms a monolayer on the surface. The monolayer spreads away from the point of contact causing the pepper to move to the edges of the dish.
- Hydrogen Bonding / Monolayers / Physical Change / Surface Tension / Uses Household Items
- 3.3a / 6.5b / BIO.2a / CH.5b / PS.5a
Mushroom Cloud
When dry ice is placed in warm water it sublimes very quickly forming a large amount of carbon dioxide gas. When a bubble is placed over this the bubble grows from the pressure.
- Cryogenics / Physical Change / Pressure / Sublimation / Surface Tension / Videos
- 2.3c / 3.3c / 5.4b / CH.5a / CH.5d / PS.5a / PS.7b
M&M Color Wheel
When M&M’s are placed in water, the outer shell, which is made of sugar, dissolves. The sugar moves from a place of high concentration (the M&M) to a place of low concentration (the water away from the M&M). When the sugar shell dissolves and moves outward, it takes the layer of food dye with it. When more than one M&M is placed into a petri dish the colors do not mix because the concentration of sugar at the interface is approximately the same. Also, around the bottom of the M&M water appears cloudy because the sugar that is dissolved is more dense than the water, so it sinks.
- Density / Diffusion / Dissolution / Physical Change / Solubility / Uses Household Items
- 1.3b / 3.3c / 5.4e / 6.5a / BIO.2a / BIO.3d / CH.2h / CH.4c / PS.2d / PS.5a
Hot – Cold Water
Hot water expands so it is less dense than room temperature water. Cold water contracts so it is more dense than room temperature water. The red hot water rises and the blue cold water sinks.
- Density / Physical Change / Thermal Convection
- 3.3c / CH.2h / PS.2d / PS.5a / PS.7c
Dry Ice in Universal Indicator
Universal indicator goes from red (pH 4) to violet (pH10) as the pH of a substance changes. Adding NaOH to water starts the solution off at pH 8-9 (blue). When dry ice is added to water it forms carbonic acid, and lowers the pH, which is the reason for the color changes. The “fog” that we see is condensed water vapor though, not carbon dioxide gas.
- Acids and Bases / Chemical Change / Color Change / Condensation / Cryogenics / Indicators / Physical Change / Sublimation / Videos
- 1.8b / 2.3c / 3.3c / 5.4b / 6.6d / BIO.2a / CH.4d / CH.5d / LS.11e / PS.2b / PS.5a / PS.5b / PS.7b
Diet and Regular Soda
Diet soda contains artificial sweeteners while regular soda has sugar in it. Artificial sweeteners are so sweet so only a small amount is needed, where as much more sugar is needed to achieve the same sweetness. Because regular soda has more mass in the same size can, it is more dense than the diet soda.
- Density / Physical Change / Problem Sets / Uses Household Items
- 3.3c / CH.2h / K.5c / PS.2d / PS.5a
Color Tornado
In this demo, food coloring is added to a stirring beaker of water to create a tornado of color. This could be used as an example of a physical change, or to demonstrate the importance of properly mixing solutions.
Collapse a Soda Can
When a small amount of water is heated inside the can, steam is produced, filling the can. When the can is inverted into cold water, all of the steam condenses quickly causing the can to implode.
CO2 Bubbles
CO2 gas from subliming dry ice gets caught in a soapy solution creating a column of bubbles. When the bubbles are popped, the “fog” that we see is condensed water vapor, not carbon dioxide gas.
- Condensation / Cryogenics / Physical Change / Sublimation / Videos
- 2.3c / 3.3c / 5.4b / CH.5d / PS.5a / PS.7b
Camphor Particles
In this demo, camphor particles are placed in water. They sublime at room temperature which is why camphor’s odor permeates the room so quickly. The gas that forms around the particles propels the particles in random directions. Earwax contains a large percentage of long chain fatty acids which form a monolayer in water, thus ceasing the motion of the camphor particles.
- Monolayers / Physical Change / Sublimation
- 2.3c / 3.3c / 5.4b / CH.5d / PS.5a / PS.7b
Bending Water
When the balloon is rubbed on a pair of jeans, electrons are wiped from the jeans to the balloon, causing a net negative charge on the balloon. The charged balloon is held near a thin stream of water. Charges in the water rearrange so that the positive charges in the water become attracted to the negatively charged balloon, and the stream of water bends. The rearranging of charges is pronounced because water is a polar molecule.
- Charging by Friction / Charging by Induction / Lesson Plans / Physical Change / Polarity / Static Electricity
- 3.3c / 4.3c / 6.5b / BIO.2a / CH.3d / PS.11a / PS.11d / PS.5a