Atoms in gases

You will zoom inside a helium balloon and see that helium gas consists of atoms that are flying. You will see that atoms in gas are further away from each other than in solids. Finally, you will see how atoms start flying faster if you increase the temperature.

This lesson is a part of MEL VR Science Simulations. Learn more →

Teacher's notes

Key­words

atoms, mat­ter, state of mat­ter, gas, tem­per­a­ture

Com­mon mis­con­cep­tions

• Gas­es are not mat­ter be­cause we can't see them or feel their mass.

Stu­dents will

• Learn that atoms in gas­es are much fur­ther away from each oth­er than in solids
• Find out that atoms in gas­es are fly­ing freely
• See that when the tem­per­a­ture in­creas­es atoms in gas start to move faster and when the tem­per­a­ture de­creas­es they slow down
• Be able to com­pare the den­si­ty of gaseous ob­jects to sol­id ones

Hands-on ac­tiv­i­ties

Be­fore VR

The goal is to demon­strate how much denser liq­uid and sol­id ob­jects are com­pared to gas­es. Ask stu­dents to de­ter­mine (make mea­sure­ments with a set of weights and then count) how many he­li­um bal­loons a stu­dent needs to lift him/her up in the air.

Equip­ment: bal­loons filled with he­li­um, set of weights.

Af­ter VR

Sy­ringe ex­per­i­ment.

The goal is to show stu­dents how pow­er­ful gas par­ti­cle mo­tion is. Ask stu­dents to pull out a sy­ringe plunger and keep it in place with their fin­gers. Let them see how easy they can do it. Then ask them to close the hole with their fin­ger and pull out the plunger again. Let them feel that it be­comes much hard­er to hold the plunger so that they can see how rig­or­ous­ly gas par­ti­cles move and hit ev­ery­thing around.

His­to­ry and sources of knowl­edge

• The an­cient Greek the­o­ry that air was one of the ba­sic el­e­ments.
• Dis­cov­ery of dif­fer­ent gas­es in the air.
• Our knowl­edge about air as a mix­ture of gas­es.
• Par­ti­cle mo­tion in gas­es: un­der a mi­cro­scope, we can see the Brown­ian mo­tion of tiny smoke par­ti­cles in the air. It proves that air con­sists of tiny par­ti­cles mov­ing chaot­i­cal­ly.

Top­ics to dis­cuss

• How do we know that there are gas par­ti­cles around us if we can't see them?
• The speed of gas par­ti­cles.
• How much denser are solids than gas­es?
• Bil­lions of gas par­ti­cles are hit­ting us, why don't we feel it?

Fun facts and quotes

• If you stretch out the palm of your hand, you ac­tu­al­ly hold about 100 kg of air.
• The heav­i­est gas is sul­phur hex­aflu­o­ride. If you pour this gas in the tank a tin foil boat would float on top of it.
• Air is rough­ly 1,000 times less dense than wa­ter. 1 cu­bic me­ter of wa­ter weighs 1 ton or 1,000 kg, while 1 cu­bic me­ter of air weighs ap­prox­i­mate­ly 1.3 kg.

Ques­tions

• Why can gas­es change their shape and solids can't?
• Why can gas­es change their vol­ume and solids can't?
• What is denser gas or sol­id and why?

Cal­cu­lat­ing

In Chi­na, one of the world’s fastest trains can reach a speed of 430 km/h (ap­prox­i­mate­ly 0.2 km/s). In the air, oxy­gen par­ti­cles trav­el at around 500 m/s. Which is faster oxy­gen par­ti­cles or the train?