Download presentation
Presentation is loading. Please wait.
Published byBruno Cowens Modified over 10 years ago
1
Do NoW 1.ANSWER ANALYSIS QUESTIONS 1 AND 2 FROM THE PROPERTIES OF GASES LAB 2.IF TIME ALLOWS, BEGIN ANSWERING CLAIMS AND EVIDENCE QUESTION
2
Investigating Properties of Gases
3
Testable Question Will it be possible to make observations about the properties of gases(pressure, volume, and temperature) on a macroscopic level?
4
Station 1 1.Draw air into the syringe, plug the opposite end, and push on plunger. 2.How does this station demonstrate that air is matter? 3.How is pressure related to volume? Theres resistance to pushing the plunger, thus demonstrating that gas molecules are taking up space in the syringe(volume) and can be compressed(pressure). The more pressure exerted by the plunger, the less volume the gas molecules take up.
5
Station 2 1.Submerge one balloon in ice water, and another balloon in hot water. 2.How does this station demonstrate that air is matter? 3.How is temperature related to volume? Here we find that the temperature of a gas relates to its volume. When a balloon is Submerged in cold water, it shrinks. When a balloon is submerged in hot water, it expands. Therefore, as temperature increases, the volume of a gas increases!
6
Station 3 1.Take the mass of an inflated balloon, and then take the mass of a deflated balloon. 2.How does this station demonstrate that air is matter? 3.Does air have mass? Here the balance revealed that the inflated balloon had a mass of.2 grams larger than the deflated balloon. Yes, air molecules definitely have mass!
7
Station 4 1.Insert the rounded end of a deflated balloon into a two liter bottle. Wrap balloon lip around lid and attempt to inflate. 2.How does this station demonstrate that air is matter? 3.Does air occupy space? When we tried to blow up the balloon, it would not inflate. This was due to air molecules already occupying the 2 liter bottle. Once again, pressure is related to volume. Air in the bottle is being compressed (volume decreases), and will therefore exert more pressure on the balloon.
8
Station 5 1.Invert an empty drinking glass and submerge in water. Slowly tilt glass. 2.How does this station demonstrate that air is matter? 3.Does air occupy space? When the cup is submerged, water does not initially enter the glass showing that air occupies space. When the glass is tilted, air is allowed to escape, allowing water to enter.
9
Station 6 1.Fill a test tube with water and cap with plastic wrap. Submerge in water, and remove plastic wrap. 2.How does this station demonstrate that air is matter? 3.Does air exert pressure? When the plastic wrap was removed, the water remained in the test tube suggesting pressure is exerted in all directions and supports waters weight.
10
Station 7 1.Plug hole in water bottle, fill with water, and replace cap. Unplug hole and immediately remove cap. 2.How does this station demonstrate that air is matter? 3.Does air exert pressure? You may have noticed that none or a very small amount of water escaped the hole when first unplugged. When the cap of the water bottle was removed, however, the water in the bottle experienced atmospheric pressure from above, allowing water to escape.
11
Station 8 1.Allow 10 ml of water to boil in a soda can. Immediately invert can and submerge in cold water bath. 2.How does this station demonstrate that air is matter? 3.Does air exert pressure? You may have seen the inverted can collapse once in contact with cold water. Water vapor generated by boiling displaces most air in the can. Upon cooling, water vapor condenses (into a liquid; like a cloud transforms into rain), producing a vacuum in the can. External pressure becomes greater than the pressure in the can and crushes it.
12
Extension Question With your partner, answer: Using what you know about the properties of gases, why does a hot air balloon work? http://videos.howstuffworks.com/howstuffworks/43- how-hot-air-balloons-work-video.htm http://videos.howstuffworks.com/howstuffworks/43- how-hot-air-balloons-work-video.htm
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.