7-4 Avogadro’s Principle (Section 13.4 ) And you!.

Slides:

Advertisements

Similar presentations

Chapter 11b Ideal Gas Laws

Advertisements

Ch – Ideal Gases -Avogadro’s Law (extension) -STP & molar volume of gas (review) -Ideal Gas Law (most important)

Ch. 11 Molecular Composition of Gases

Gas Laws Chapter 10.

The Ideal Gas Law Section Standard Molar Volume of a Gas Assume the gas is an ideal gas Standard molar volume of a gas: the volume occupied by one.

TOPICS 1.Intermolecular Forces 2.Properties of Gases 3.Pressure 4.Gas Laws – Boyle, Charles, Lussac 5.Ideal Gas Law 6.Gas Stoichiometry 7.Partial Pressure.

Basic Chemistry Chapter 11 Gases Chapter 11 Lecture

UNIT 2: REVIEW TIER 5 Solve problems using the idea gas law

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

Gases and Moles The Ideal Gas Equation. What factors affect the pressure of a confined gas? 1. Number of molecules 2. Temperature 3. Volume of the container.

The Combined Gas Law Expresses the relationship between pressure, volume, and temperature of a fixed amount of gas. PV/T = k or P1V1/T1 = P2V2/T2 Charles’

1 Chapter 11 Gases 11.8 The Ideal Gas Law Copyright © 2008 by Pearson Education, Inc. Publishing as Benjamin Cummings.

Basic Chemistry Copyright © 2011 Pearson Education, Inc. 1 Chapter 11 Gases 11.8 The Ideal Gas Law Basic Chemistry Copyright © 2011 Pearson Education,

Combined and ideal gas laws Gases Have Mass Gases Diffuse Gases Expand To Fill Containers Gases Exert Pressure Gases Are Compressible Pressure & Temperature.

Ideal Gas Law The equality for the four variables involved in Boyle’s Law, Charles’ Law, Gay-Lussac’s Law and Avogadro’s law can be written PV = nRT R.

Mullis1 Gay Lussac’s law of combining volumes of gases When gases combine, they combine in simple whole number ratios. These simple numbers are the coefficients.

Avogadro’s Principle Gas particles = big, little, heavy, light Doesn’t matter = so far apart Therefore, a 1000 krypton (big) atoms occupy the same space.

What happens when we change the quantity of gas

Ideal Gas Law PV=nRT Kinetic Molecular Theory 1. Gases have low density 2. Gases have elastic collisions 3. Gases have continuous random motion. 4. Gases.

Chapter 13: Gases Sec. 13.2: The Ideal Gas Law. Objectives zRelate the amount of gas present to its pressure, temperature, & volume by using the ideal.

Ideal Gas Law & Gas Stoichiometry

Topic 10 Gases III. Ideal Gas Law.

Gas Laws Chapter 14 Mrs. Hayen, Fall ‘03. Kinetic Molecular Theory Gas particles do not attract or repel each other. Gas particles are much smaller than.

Temperature Unit Kelvin (K) Kelvin = °C Temperature Convert 45°C to Kelvin 45°C = 318 K.

MOLAR VOLUME. molar volume What is the volume of a gas at STP, if it contains 10.4 moles? What is the volume of carbon dioxide gas (STP) if the.

Ideal Gas Law (Equation):

Chapter 11 Molecular Composition of Gases. Avogadro’s Law Equal Volumes of Gases at the Same Temperature & Pressure contain the Same Number of “Particles.”

Section 11–3: The Ideal Gas Law

Chapter 13 Section 13.2 The Ideal Gas Law.

Chapter #11 Molecular Composition of Gases. Chapter 11.1 Gay-Lussac’s law of combining volumes of gases states that at constant temperature and pressure,

The Ideal Gas Equation pV = nRT.

Gas Volumes and the Ideal Gas Law 11.3 Volumes of Reacting Gases Gay-Lussac’s law of combining volumes of gases – at constant T and P, the V of gaseous.

Ideal Gas Law & Gas Stoichiometry. Ideal Gas Law P V = n R T P = Pressure (atm) V = Volume (L) T = Temperature (K) n = number of moles R is a constant,

Ideal Gas Equation/Molar & Molecular Mass Thermal Physics Lesson 4.

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.

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

Chapter 5: The Gaseous State Chemistry 1061: Principles of Chemistry I Andy Aspaas, Instructor.

Chapter 14-3 I. Avogadro’s Principle A. Equal volumes of gases at same T and P contain equal #’s of molecules B. H 2 + Cl 2 → 2HCl 1 vol. 1 vol. 2 vol.

Chapter 14-3 I. Avogadro’s Principle A. Equal volumes of gases at same T and P contain equal #’s of molecules B. H 2 + Cl 2 → 2HCl 1 vol. 1 vol. 2 vol.

Chapter 11 – Ideal Gas Law and Gas Stoichiometry.

Ideal gases and molar volume

© 2013 Pearson Education, Inc. Chapter 7, Section 8 General, Organic, and Biological Chemistry Fourth Edition Karen Timberlake 7.8 The Ideal Gas Law Chapter.

Section 12.2: Using Moles (part 2). Remember… Avogadro’s Principle In terms of moles, states that equal volumes of gases at the same temperature and pressure.

1.Describe Law with a formula. 1.Describe Avogadro’s Law with a formula. 2.Use Law to determine either moles or volume 2.Use Avogadro’s Law to determine.

Chapter 11: Molecular Composition of Gases. Sect. 11-1: Volume-Mass Relationships of Gases Gay-Lussac’s Law of combining volumes of gases – at constant.

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

Combined and ideal gas laws PV=k 1 V/T=k 2 P/T=k 3  If we combine all of the relationships from the 3 laws covered thus far (Boyle’s, Charles’s, and.

Section 14.3 The Ideal Gas Law. Objectives  Relate the amount of gas present to its pressure, temperature, and volume by using ideal gas law  Compare.

Honors Chemistry, Chapter 11 Page 1 Chapter 11 – Molecular Composition of Gases.

Gases. Ideal Gases Ideal gases are imaginary gases that perfectly fit all of the assumptions of the kinetic molecular theory.  Gases consist of tiny.

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.

The Three Gas Laws pV = constant V/T = constant

V  1/P (Boyle’s law) V  T (Charles’s law) P  T (Gay-Lussac’s law) V  n (Avogadro’s law) So far we’ve seen… PV nT = R ideal gas constant: R =

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

5.4 – 5.5: Applying The Ideal Gas Law

No, it’s not related to R2D2

7-4 Avogadro’s Principle (Section 13.4 )

Basic Chemistry Chapter 11 Gases Chapter 11 Lecture

The Ideal Gas Law Chapter 11 Section 3.

(same ratio for every gas)

Gas Laws Robert Boyle Jacques Charles Amadeo Avogadro

Ch. 11 Molecular Composition of Gases

PV = nRT Pressure x Volume = Moles x gas constant x Temp.

Chem Get Gases MC Practice WS stamped off if you did not do so last class. Unit 8 Test Fri 2/22.

The Combined Gas Law and Avogadro’s Principle

Presentation transcript:

7-4 Avogadro’s Principle (Section 13.4 ) And you!

Avogadro’s Principle states that for a gas at constant temperature and pressure, the volume is directly proportional to the number of moles of gas. In equation form: Volume = constant x moles orV = constant x n

Rearranging gives us: V 1 = constant = V 2 or V 1 = V 2 n 1 n 2 n 1 n 2 Another way to interpret this principle is: equal volumes of different gases (at constant T and P) have the same number of molecules.

7-5 The Ideal Gas Law (Section 13.5) It’s possible to combine all the gas laws we’ve learned into one expression called the Ideal Gas Law: PV = nRT P = pressure V = volume (in L) n = number of mole T = temperature (in K) R = the Universal Gas Constant = Latm= 8.31 LkPa = 62.4 LmmHg molK molK molK All the gas laws can be derived from the Ideal Gas Law; for example, by holding V and n constant.

The Ideal Gas Law can be used to calculate additional quantities other than P, V, and T: Using the idea that the molar mass (formula weight) = grams/mole or MM = grams/n Sub in gives: PV = gRT MM which can be used to find MM !!!!! Rearrange for Density: g/V = Density of gas = g/V = P(MM) / RT