Putting dry ice in water causes it to sublimate more quickly, releasing carbon dioxide gas at a faster rate. The water helps transfer heat to the dry ice, causing it to sublimate faster and therefore increasing the amount of gas produced.
cold water makes dry ice closer to its freezing point. so hot water makes dry ice sublimate more
dry ice
Molecules of carbon dioxide must absorb heat energy to change from solid to gas. Warm water contains more heat energy than cold water.
The hypothesis of boo bubbles is that adding dry ice (solid carbon dioxide) to warm water will cause it to sublimate into a gas, creating bubbles that are filled with carbon dioxide gas. This process demonstrates the principles of density and phase changes in a fun and engaging way for students.
it can sublimate faster in hot water
Putting dry ice in water causes it to sublimate more quickly, releasing carbon dioxide gas at a faster rate. The water helps transfer heat to the dry ice, causing it to sublimate faster and therefore increasing the amount of gas produced.
cold water makes dry ice closer to its freezing point. so hot water makes dry ice sublimate more
The oil is thicker. The thicker oil holds its temperature longer. It resists change. The water, being thinner, changes temperature faster. Therefore, the dry-ice is in a hotter environment longer, which allows the reaction at a higher rate than the water after is has cooled a degree or more.
dry ice
Molecules of carbon dioxide must absorb heat energy to change from solid to gas. Warm water contains more heat energy than cold water.
Clothes will likely dry faster on a warm still day, even if it's overcast. Wind can help clothes dry faster, but the warmth will accelerate the evaporation process more effectively than just wind alone.
No, but it will evaporate (or, more properly) sublimate.
In a warm and moist place.
The hypothesis of boo bubbles is that adding dry ice (solid carbon dioxide) to warm water will cause it to sublimate into a gas, creating bubbles that are filled with carbon dioxide gas. This process demonstrates the principles of density and phase changes in a fun and engaging way for students.
A hypothesis for an experiment involving dry ice could be: "I predict that placing dry ice in warm water will cause it to rapidly sublimate, creating a cloud of carbon dioxide gas due to the temperature difference between the dry ice and water." This hypothesis clearly states the expected outcome of the experiment and the reason behind it.
To reduce dry ice loss, make sure to pack dry ice as close to each other as possible. Fill any empty space with new bubble packs, newspaper or Styrofoam peanuts since the space will cause the dry ice to sublimate faster.