Wed, Jan 13, 2010 Pick up Phet activity Turn in Sample Problems Add vocab terms to LG sheet Questions on practice problems Demo – vacuum packed Combined.

Slides:

Advertisements

Similar presentations

Chapter 11b Ideal Gas Laws

Advertisements

Chpt 5 - Gases Gas Law Development Dalton’s Partial pressure law

The Properties of Gases

The Ideal Gas Law PV = nRT.

The Ideal Gas Law. Review Recall the equation of the constant (k) for each law: Boyles Lawk B = PV Gay-Lussacs Lawk G = P/T Charless Lawk C = V/T Avogadros.

The Ideal Gas Law. What is an Ideal Gas? A gas that behaves according to the Kinetic Molecular Theory. It obeys all the postulates of KMT.

Gases are easily compressed Gases can expand Large amount of space between particles.

PV = nRT Ideal Gas Law P = pressure in atm V = volume in liters

CHEMISTRY Wednesday/Thursday April 25 th -26 th, 2012.

The Ideal Gas Law. What is an ideal gas? They do not condense to liquids at low temperatures They do not condense to liquids at low temperatures They.

Ideal Gases Solid carbon dioxide, or dry ice, doesn’t melt. It sublimes. Dry ice can exist because gases don’t obey the assumptions of kinetic theory under.

Chemistry Chapter 14.3 “Ideal Gases”.

Notes 3-2 “The Gas Laws”. What is pressure? N/m 2 Pa KPa.

1 Chapter 6 Gases 6.6 The Combined Gas Law. 2 The combined gas law uses Boyle’s Law, Charles’ Law, and Gay-Lussac’s Law (n is constant). P 1 V 1 =P 2.

Ideal Gas Law. Ideal Gases Ideal Gases –are at high temperatures and low pressures. –have no forces of attraction between particles. –Collide elastically.

Avogadro’s Principal & Molar Volume LG: I can use Avogadro’s Principal to equate volume and number of entities in a gas.

Unit 9: Gases Ideal Gas Law. After today you will be able to… Explain what an ideal gas is Calculate an unknown pressure, temperature, volume, or amount.

Ideal Gas Law. Do you remember the values for STP? Chemists have figured out how to calculate the number of gas particles in a sample of gas if they know.

I DEAL GAS LAW & R EAL GASES. I DEAL G AS L AW : Used when the amount of gas varies Can be used to calculate the number of moles of gas Needed in the.

Real vs. Ideal Gases (write all of this down)

= Let’s Build It… = If the temperature of the gases in the soda increase, what happens to the pressure inside the can?

Gas Law Notes Chemistry Semester II Ideal Gas Law Combined Gas Law And Guy Lussac’s Law.

Kinetic Molecular Theory

What happens when we change the quantity of gas

Notes 13.2 The Ideal Gas Law is the combination of the three gas laws: Boyle’s, Charles’s, and Avogadro’s. PV= nRT R is a universal gas constant that is.

KMT Gas Laws Gas Variables Pressure Wildcard Unit 3, Section A Jeopardy Vital Vocab

Chapter 13 Section 13.2 The Ideal Gas Law.

The Ideal Gas Equation pV = nRT.

The Ideal Gas Law Pretending Real Gases Didn’t Exist Since 1834.

© Copyright Pearson Prentice Hall Slide 1 of Ideal Gases Solid carbon dioxide, or dry ice, doesn’t melt. It sublimes. Dry ice can exist because.

The Ideal Gas Law. The Perfect Gas Ideal gas – an imaginary gas whose particles are infinitely small and do not interact with each other No gas obeys.

Section 13.2 Using Gas Laws to Solve Problems. Section 13.2 Using Gas Laws to Solve Problems 1.To understand the ideal gas law and use it in calculations.

III. Ideal Gas Law (p , ) Ch. 10 & 11 - Gases.

Kinetic Theory of Gases 1. Gas particles do not attract or repel one another 2. Gas particles are much smaller than the distances between them.

Ideal vs. Real Gases No gas is ideal. As the temperature of a gas increases and the pressure on the gas decreases the gas acts more ideally.

Ideal Gas Law Chapter Ideal Gas Law The ideal gas law combines: –pressure –temperature –volume –# of particles (amount)

Ideal Gases. Ideal Gas vs. Real Gas Gases are “most ideal”… at low P & high T in nonpolar atoms/molecules Gases are “real”… Under low T & high P when.

Combined Gas Law. How can you combine all three laws into one equation? Boyle’s LawP x V Charles’s LawV / T Gay-Lussac’s LawP / T.

Chapter 14 The Gas Laws Pages The Kinetic molecular theory that we talked about in the last is still valid. Gases are in constant random motion.

Ch. 10 & 11 - Gases Ideal Gas Law C. Johannesson.

BOYLE’S LAW 13.1: Pgs Pressure and Volume: Boyle’s Law  Irish scientist Robert Boyle was the first scientist to conduct “careful” experiments.

Aim: What is the difference between the ideal and real gases? Do now: 1. A certain gas at STP has a volume of 5 liters. What is the new volume of the given.

Ideal Gases Ideal Gas Law Describes physical behavior of an ideal gas in terms of P, V, T, and n PV = nRT R = ideal gas constant = 8.31 (L∙kPa)/(K∙mol)

Relate number of particles and volume using Avogadro’s principle. mole: an SI base unit used to measure the amount of a substance; the amount of a pure.

Gases Chapter 11. Kinetic Theory and Gas Properties The kinetic theory assumes that –Volume of gas particles is insignificant –There is space between.

Aim: What are the properties of Gases? DO NOW: Fill in the blanks. (increase or decrease for each blank) 1. As the volume of a gas ____________, the pressure.

Ideal Gases and The Ideal Gas Law LG: I can perform calculations involving temperature, pressure, volume, and amount using the ideal gas law.

Chapter 19 Avogadro’s Principle. Avogadro's Principle states that equal volumes of gases at the same temperature and pressure contain an equal number.

Behavior of Gases. Gases exert Pressure Due to collisions of particles Barometer Review units Compression of gas absorbs E.

Chapter 10: Gases STP *standard temp and pressure temp= K, 0ºC pressure= 101.3kPa, 1atm, 760mmHg, 760torr Problems Convert: a) 0.357atm  torr b)

Ideal Gas Law Ch. 10 & 11 - Gases. V n A. Avogadro’s Principle b Equal volumes of gases contain equal numbers of moles at constant temp & pressure true.

The Ideal Gas Law. Remember… and In an Ideal Gas, Therefore, in an Ideal Gas, Combined Gas LawAvogadro.

Ideal Gases Ideal Gas Law Describes physical behavior of an ideal gas in terms of P, V, T, and n PV = nRT R = ideal gas constant = 8.31 (L∙kPa)/(K∙mol)

The Ideal Gas Law Ideal Gas  Follows all gas laws under all conditions of temperature and pressure.  Follows all conditions of the Kinetic Molecular.

THE MOLE Makes an Appreanance. The Ideal Gas Law PV = nRT.

Ideal Gas Law Marshall WW-P May Ideal Gas Law O Combined gas law assume a constant amount of gas (moles – (n)) O Could we calculate the # of moles.

Ideal Gas Law To calculate the number of moles of a contained gas requires an expression that contains the variable n.

Collisions with gas particles are elastic.

V. Combined and Ideal Gas Law

Chapter 14- Gas Laws.

Happy Friday! Please do the following: pick up the handouts

The Gas Laws and Ideal Gases

DO NOW Turn in your blue Big Chill sheet.

gas Laws Review Matter and energy January 3, 2017

Ideal Gases Solid carbon dioxide, or dry ice, doesn’t melt. It sublimes. Dry ice can exist because gases don’t obey the assumptions of kinetic theory under.

Ideal Gas Law To calculate the number of _______________ of a contained gas requires an _____________ that contains the variable ___.

Ideal Gas Law To calculate the number of moles of a contained gas requires an expression that contains the variable n.

Notes Ch Ideal Gases Chemistry.

Presentation transcript:

Wed, Jan 13, 2010 Pick up Phet activity Turn in Sample Problems Add vocab terms to LG sheet Questions on practice problems Demo – vacuum packed Combined and Ideal gas law Homework

Happy PLC Day! Pick up Phet Activity and sample problems Add the following terms to your learning goals sheet: Ideal Gas – particles have no volume and have no attraction towards each other Real Gas – particles have volume and have some attractive forces towards each other Ideal Gas Constant R: R = 8.31 L*kPa / mol*K

Answers to Practice Problems 1. V = 124 L 2. V = 4.46 L 3. P = 2.58 kPa 4. V = 8.36 L 5. P = 68.3 kPa 6. P = 415 kPa

Ideal Gases Do not exist Real gases behave most like an ideal gas at: High temperatures Low pressures

Homework: Gas Law Practice Problems #7-13 Moodle Lab quiz – open until Mon at 11pm Knowledge Check for 12.1, 12.2 and 12.3 (gas law calculations) open from Wed at 5pm – Thurs at 10pm