categories:states_matter
Particles and States of Matter Demonstrations
The particle model explains the properties of solids, liquids, and gases by considering the motion and arrangement of particles and the forces between them. This category examines changes of state, diffusion, gas pressure, and how temperature affects particle movement. Using the model helps link microscopic ideas to macroscopic observations such as expansion, compressibility, dissolving, and viscosity. Mastery of the particle view supports reasoning across many areas of science.
| Demonstration | Materials | Difficulty | Safety | Summary |
|---|---|---|---|---|
| Boiling Water in a Vacuum Chamber | ★★★ | ★★★ | ★★★ | When water is placed in a vacuum chamber and the air is pumped out, the reduced external pressure lowers the boiling point. The water boils at room temperature, and because the energy for vaporization comes from the liquid itself, the remaining water cools noticeably. |
| Ammonia and Hydrogen Chloride Diffusion | ★★☆ | ★★☆ | ★★★ | Cotton wool soaked with aqueous ammonia is placed at one end of a glass tube and cotton wool soaked with concentrated hydrochloric acid at the other. As the vapors diffuse toward each other, they form a visible white ring of ammonium chloride closer to the HCl end, showing that ammonia diffuses faster due to its lower molar mass. |
| Cloud in a Bottle | ★★☆ | ★★☆ | ★★☆ | This demonstration shows how changes in pressure and temperature can create visible clouds. When air inside a sealed bottle containing rubbing alcohol is compressed and then suddenly released, the vapor condenses into tiny suspended droplets, forming a cloud. |
| Comparing Evaporation Rates | ★★☆ | ★★☆ | ★★☆ | This demonstration shows how different liquids evaporate at different rates by measuring their temperature changes during evaporation. Students connect differences in evaporation rates to molecular structure and intermolecular forces using molecular models. |
| Freeze a Beaker to a Board | ★★☆ | ★★☆ | ★★☆ | When ammonium nitrate and barium hydroxide are mixed, they undergo a strongly endothermic reaction that absorbs heat, lowering the temperature to around –25 °C to –30 °C. The beaker becomes so cold that water freezes, bonding the beaker to the wooden block beneath it. |
| Freezing Flowers With Dry Ice and Alcohol | ★★★ | ★★☆ | ★★★ | A mixture of dry ice and isopropyl alcohol creates a very cold liquid at around -90 °C, which can instantly freeze flowers, candy, or fruit, making them brittle and easy to shatter. |
| Light a Match With Superheated Steam | ★★★ | ★★☆ | ★★★ | Steam produced at atmospheric pressure is passed through heated copper tubing to become superheated, reaching several hundred degrees Celsius. The superheated steam demonstrates surprising effects when it comes into contact with paper and matches. |
| Marshmallow in a Vacuum | ★★★ | ★★☆ | ★★☆ | Placing marshmallows inside a bell jar and changing the air pressure demonstrates how gases expand and contract, showing the effects of vacuum and differential pressure on porous materials. |
| Microwaving Grapes to Create Plasma | ★☆☆ | ★★☆ | ★★★ | When two grapes slices are microwaved while touching, the microwave energy concentrates at their point of contact, creating an intense electric field strong enough to strip electrons from atoms. This ionizes the material and produces glowing plasma inside the microwave. |
| Sublimation of Iodine | ★★☆ | ★★☆ | ★★☆ | Elemental iodine can be heated to show sublimation, where it changes directly from a solid to a purple vapor and then recrystallizes on a cooled surface without passing through a liquid phase. |
| Balloon in Syringe Boyle's Law | ★★☆ | ★☆☆ | ★☆☆ | Using balloons inside a syringe, this experiment shows how gases expand when pressure decreases and contract when pressure increases, illustrating Boyle’s law. |
| Balloon Volume and Temperature | ★☆☆ | ★☆☆ | ★☆☆ | This experiment demonstrates how temperature affects the volume of gas inside a balloon. By placing balloons over bottles in hot water, a refrigerator, and a freezer, students observe how gases expand when heated and contract when cooled, illustrating Charles’s Law. |
| Boiling Water at Room Temperature | ★★☆ | ★☆☆ | ★★☆ | By pulling back the plunger on a water-filled syringe with the tip sealed, the pressure inside is reduced. This causes the water to boil at room temperature, demonstrating how boiling depends on pressure as well as temperature. |
| Cornstarch and Water | ★☆☆ | ★☆☆ | ★☆☆ | This experiment uses cornstarch and water to create "oobleck," a non-Newtonian fluid that behaves like a liquid when poured but like a solid when struck or squeezed. It provides a hands-on way to explore suspensions and unusual fluid dynamics. |
| Diffusion in Hot and Cold Water | ★☆☆ | ★☆☆ | ★☆☆ | By adding food coloring to hot and cold water, students can observe that molecules in hot water move faster, causing the dye to spread more quickly. |
| Evaporative Cooling with Liquids | ★☆☆ | ★☆☆ | ★☆☆ | This activity demonstrates how evaporation causes cooling by comparing how water and rubbing alcohol feel when placed on the skin. As the liquids evaporate, they remove heat from the surface, showing how sweating helps regulate body temperature. |
| Gallium and Aluminium Can | ★★★ | ★☆☆ | ★★☆ | When liquid gallium is applied to an aluminum can, it penetrates the aluminum’s grain boundaries and disrupts its crystal structure, making the can brittle and easy to puncture. |
| Hot Water Condensation | ★☆☆ | ★☆☆ | ★★☆ | This experiment demonstrates condensation, a key stage in the water cycle. By placing an upside-down cup with an ice cube over a cup of hot water, students can observe how water vapor cools and condenses into liquid droplets, similar to how clouds form in the atmosphere. |
| Melting Gallium in Your Hand | ★★★ | ★☆☆ | ★★☆ | Gallium, a metal with a melting point of 29.76 °C (85.6 °F), can melt in the palm of your hand. The demonstration shows how body heat is enough to turn solid gallium into a silvery liquid. |
| Melting Ice and Rising Sea Levels | ★☆☆ | ★☆☆ | ★☆☆ | This experiment shows the difference between melting sea ice and melting land ice. Sea ice melts without raising water levels, while land ice melting adds extra water and raises sea levels. |
| Mentos and Diet Coke | ★☆☆ | ★☆☆ | ★★☆ | Dropping Mentos candies into Diet Coke causes a rapid release of dissolved carbon dioxide, creating a dramatic soda eruption. This is a physical reaction caused by surface roughness on the Mentos that accelerates bubble formation. |
| Smelly Balloons | ★☆☆ | ★☆☆ | ★☆☆ | Students place small amounts of scented liquids inside latex balloons, inflate them, and identify the scent over time. The activity models diffusion across a barrier and introduces terms like concentration gradient, semi-permeable membrane, and equilibrium. |
| Sublimation of Naphthalene | ★★☆ | ★☆☆ | ★★☆ | A mixture of impure naphthalene and sand is heated to demonstrate sublimation. Naphthalene sublimes directly from solid to vapor and recrystallizes on a cooled surface, separating it from the non-sublimable impurity. |
| Thermal Decomposition of Ammonium Chloride | ★★☆ | ★☆☆ | ★★☆ | Ammonium chloride, when heated, undergoes decomposition into hydrogen chloride and ammonia gasses, before reforming when cool. The process appears similar to sublimation and deposition. |
| Viscosity With Marbles | ★☆☆ | ★☆☆ | ★☆☆ | Students compare how marbles fall through different liquids such as water, oil, syrup, and honey. This simple race demonstrates viscosity, or the internal friction of liquids, and helps students understand why some liquids flow faster than others. |
Materials
★☆☆ Easy to get from supermarket or hardware store
★★☆ Available in most school laboratories or specialist stores
★★★ Requires materials not commonly found in school laboratories
Difficulty
★☆☆ Can be easily done by most teenagers
★★☆ Available in most school laboratories or specialist stores
★★★ Requires a more experienced teacher
Safety
★☆☆ Minimal safety procedures required
★★☆ Some safety precautions required to perform safely
★★★ Only to be attempted with adequate safety procedures and trained staff