Agenda: 4/23 or 4/24

Agenda: 4/23 or 4/24• Purpose: To use mathematical formulas to predict how a gas will change

• Warm-up: States of Matter• Kinetic Molecular Theory• Measurements used in Gas

GASESUnit 8Essential Standards: 2.1.5Chapters 13 & 14

Purpose: To use mathematical formulas to predict how a gas will change

GAS LAWS (FORMULAS)

-Gas molecules act in orderly and predictable ways.

- We can use mathematical formulas to predict what they will do when

we change Temperature, Pressure, or Amount.

Warm-up: What are gases? Describe the location & movement of the particles at each state of matter?

How are gases different?

What are gases? How are they different?Describe the gases in terms of size and type of compound (bond type).

Elements that exist as gases at 250C and 1 atmosphere

Differentiating gases from solids and liquids

• Kinetic Molecular Theory• or “Why solids, liquids and gases behave as they do”

• How are gases different?

Differentiating gases from solids and liquids• Kinetic Molecular Theory

• or “Why solids, liquids and gases behave as they do”

• All matter is made of __________________and these are always in _________________. - Temperature determines the ____________of the ___________________.There are 3 states of matter on earth: _______,________________, __________________.

• DiscoveryEd video: Kinetic Molecular Theory• Kinetic_Molecular_Theory.wmv

• Animation – • http://

www.pbs.org/wgbh/nova/physics/states-of-matter.html• Includes Temperature & Pressure; Water, Carbon dioxide

and hydrogen gas

http://www.pbs.org/wgbh/nova/physics/states-of-matter.html

http://www.pbs.org/wgbh/nova/physics/states-of-matter.html

Gas Behavior – Kinetic Molecular Theory

• http://ed.ted.com/lessons/describing-the-invisible-properties-of-gas-brian-bennett

• 5 characteristics of gases1. - 2. -3. - 4. -5. -

http://ed.ted.com/lessons/describing-the-invisible-properties-of-gas-brian-bennett




Chemical particles (atoms, molecules, or compounds) act differently when they are in different states of matter

PHET – States of Matter – Basicshttps://phet.colorado.edu/en/simulation/states-of-matter-basics

animationsHeating curveKMT- SolidKMT-Liquid KMT- Gas

Ways we measure gases:

Abbreviation Measurement

Volume

Temperature

Number or quantity – atoms or molecules

Pressure

Gas Temperature: Always use KelvinCelcius Kelvin

Temperature Conversions• Convert 25.0℃ to Kelvin

• Convert 375K to ℃

• Convert -50℃ to K

Pressure • http://www.dlt.ncssm.edu/Tiger/chem3.htm

AnimationAtmospheric pressure

You Tube – Atmospheric Pressure

http://www.dlt.ncssm.edu/Tiger/chem3.htm

Sea level 1 atm

4 miles 0.5 atm

10 miles 0.2 atm

Air Pressure of the Atmosphere

Units of Pressure

1 atm = 760 mmHg = 760 torr

1 atm = 101 kPa (101,325 Pa)

Barometer

Pressure = ForceArea

Or 760 mm of Mercury

Measuring Pressure: UnitsUnit Unit name STP:

Measurement at sea level & 0°C

Mm Hg Mm Mercury 760 mm Hg

Atm atomospheres 1 atm

kPa kiloPascals 101 kPa

Torr Torr 760 torr

PSI*Tire pressure

Pounds per square inch

14.7 psi

STP = Standard Temperature & PressureWhat does the chemistry reference table tell you? • STP= 1 atm at 0°C or _________ K• = __________mm Hg• = __________ KPa• = __________ torr

Standard Molar Volume of a Gas: 1 mole = ______ Liter(volume occupied by one mole of any gasat STP = ______ Liter)

Pressure Conversions

• Convert 98.35 kPa to atm

• Convert 745 mm Hg to atm

• Convert 740 mm Hg to kPa

GAS LAWSShows the relationship of volume. Temperature, pressure and quantity of molecules in mathematical terms

Gases act in predictable ways so we can use

mathematical formulas to determine how they act

http://phet.colorado.edu/en/simulation/gas-properties

http://phet.colorado.edu/sims/ideal-gas/gas-properties_en.jnlp

Three Major Laws

Combined Gas Law P₁V₁= P₂V₂ T₁ T₂

Ideal Gas Law PV = nRT

•Dalton’s Law of Partial Pressure Ptotal = P₁+P₂+P₃+Petc.

“A Rational Equation” means an equation which uses ________.

Isolating the Unknown Variable

P₁V₁ = P₂V₂ T₁ T₂

We can slide diagonally across the equal sign without changing the mathematical relationship.

Need variable cards


P₁V₁ = P₂V₂ T₁ T₂



P₁V₁ = P₂V₂ T₁ T₂



P₁V₁ = P₂V₂ T₁ T₂


Combined Gas Law

Combined Gas Law

Initial condition(1) Final condition (2)

Pressure

Volume

Temp. K

P₁V₁ = P₂V₂ T₁ T₂

Combined Gas Law: Example


Pressure

Volume

Temp. K

P₁V₁ = P₂V₂ T₁ T₂

A gas at 110 kPa and 30℃ fills a flexible container with an initial volumeOf 2.00L. If the temperature is raised to 80℃ and the pressure increasedTo 440 kPa, what is the new volume?

Answer: 0.58L

Constant variable Changing variables Law

Temperature Boyles

Pressure Charles

Volume Gay-Lussac

Combined Gas Law P₁V₁= P₂V₂ T₁ T₂

Keeping one variable constant:

Boyles’ Law Animation• http://www.chem.iastate.edu/group/Greenbowe/sections/

projectfolder/flashfiles/gaslaw/boyles_law_graph.html

Boyles’ Law: Vary P & VUses: bicycle pump; syringe for injections; popping a balloon by squeezing; Scuba diving: increase in bubble size as rise to surface of water Others?


Pressure

Volume

Temp. K

P₁V₁ = P₂V₂ T₁ T₂



Boyles’ Law: ExampleA cylinder of oxygen has a volume of 2.0L. The pressure of the gas is 10 atm at 0℃. What will be the volume at STP?


Pressure

Volume

Temp. K

P₁V₁ = P₂V₂ T₁ T₂

Boyles’ Law: Practice Problems


Pressure

Volume

Temp. K

P₁V₁ = P₂V₂ T₁ T₂

Boyles’ Law: Practice Problems


Pressure

Volume

Temp. K

P₁V₁ = P₂V₂ T₁ T₂

Charles’ Law: Vary V & TUses: Hot Air Balloons

Decorating with party balloons; Cooked turkey monitor/device; Playing basketball on a cold day


Pressure

Volume

Temp. K

P₁V₁ = P₂V₂ T₁ T₂

Charles’ Law: Practice Problems


Pressure

Volume

Temp. K

P₁V₁ = P₂V₂ T₁ T₂

Charles’ Law: Practice Problems


Pressure

Volume

Temp. K

P₁V₁ = P₂V₂ T₁ T₂

Gay Lusaac’s Law: Vary P and TUses: Heating cans (soup, spray); Pop corn;


Pressure

Volume

Temp. K

P₁V₁ = P₂V₂ T₁ T₂



Gay Lussac’s Law: Practice Problems


Pressure

Volume

Temp. K

P₁V₁ = P₂V₂ T₁ T₂

Gay Lussac’s Law: Practice Problems


Pressure

Volume

Temp. K

P₁V₁ = P₂V₂ T₁ T₂

COMBINED GAS LAW

Combined Gas Law


Pressure

Volume

Temp. K

P₁V₁ = P₂V₂ T₁ T₂

A balloon is partially filled with helium on the ground in the mountains (temp.is 22°C and the pressure is 740 torr. At these conditions, the volume is 10 m³.If released, what would be the volume in m³ at an altitude 5300 m where the pressure is 370 torr and the temperature is - 23°C?

Combined Gas Law


Pressure

Volume

Temp. K

P₁V₁ = P₂V₂ T₁ T₂

The volume of a gas is 27.5 mL at 22°C and 0.974 atm. What will the volume be at 15°C and 0.993 atm?

Combined Gas Law


Pressure

Volume

Temp. K

P₁V₁ = P₂V₂ T₁ T₂

A 700 mL gas sample at STP is compressed to a volumeof 200mL and the temperature is increased to 30°C. What is the new pressure of the gas?

P₁ V₁ T₁ P₂ V₂ T₂1.5 atm 3.0L 20°C 2.5 atm ? 30°C

Combined Gas Law

Ideal Gas LawUse when________ is included.

• Formula: PV = nRTP = V= n= R= 0.0821 L∙atm mol∙KT=

Ideal Gas Law• Formula: PV = nRTWhat is the pressure exerted by a 0.5 mol sample of N₂ gas in a 10L container at 278K?

P = V= n= R= 0.0821 L∙atm mol∙KT=

Ideal Gas Law

• Formula: PV = nRTHow many moles of O₂ will occupy a volume of 2.5L at 1.2 atm and 25°C?

P = V= n= R= 0.0821 L∙atm mol∙KT=

Ideal Gas Law: PV = nRTWhat volume will 2 mol of N₂ gas occupy at 720 torr and 20°C?

P = V= n= R= 0.0821 L∙atm mol∙KT=

Ideal Gas Law: PV = nRTAt what temperature will 5 grams of Cl₂ gas exert with a pressure of 900 mm Hg and volume of 750 mL?

P = V= n= R= 0.0821 L∙atm mol∙KT=

Dalton’s Law of Partial Pressure

• Mixture of gases (no reaction takes place)

• What is the total blood gas pressure for a person having CO₂ partial pressure of 60.1 mm Hg and an O₂ partial pressure of 39.2 mm Hg?

Ptotal = P₁+P₂+P₃+Petc.

Dalton’s Law of Partial Pressures

V and T are

constant

P1 P2 Ptotal = P1 + P2

Avogadro’s Law

V a number of moles (n)

V = constant x n

V1/n1 = V2/n2

Constant temperatureConstant pressure

Documents

Agenda: 4/23 or 4/24