Pressure and Temperature

Slides:

Advertisements

Similar presentations

Advertisements

Gases.

Pressure and Temperature

Not so long ago, in a chemistry lab far far away… May the FORCE/area be with you.

Pressure and Temperature William Thomson “Lord Kelvin”

Not so long ago, in a chemistry lab far far away… May the FORCE/area be with you.

Not so long ago, in a chemistry lab far far away… May the FORCE/area be with you.

Not so long ago, in a chemistry lab far far away… May the FORCE/area be with you.

Gases 1. The Nature of Gases  Gases expand to fill their containers  Gases are fluid – they flow  Gases have low density  1/1000 the density of the.

Section 13.1 Describing the Properties of Gases 1.To learn about atmospheric pressure and how barometers work 2.To learn the units of pressure 3.To understand.

Not so long ago, in a chemistry lab far far away… May the FORCE/area be with you.

Ch 11 Gases Gases and Pressure 11.1 Pressure and Force Pressure – (P) the force per unit area on a surface Pressure – (P) the force per unit area on.

1 Chapter 5: GASES. 2  In this chapter we will:  Define units of pressure and volume  Explore the properties of gases  Relate how the pressure, volume,

The Nature of Gases Regardless of their chemical identity,

Chapter 12 Physical Characteristics of Gases. Kinetic Molecular Theory  Particles of matter are ALWAYS in motion  Volume of individual particles is.

Gas Laws Units Used With Gas Laws PRESSURE: The force applied by many gas particles colliding with each other. 1.Atmospheres (atm) STP= 1atm 2.Pounds.

 States of Matter  Solid  Particles close together  May only vibrate  Liquid  Particles not as close together  Particles may move past each other,

Chapter 10 and 11 Intermolecular forces and phases of matter Why does matter exist in different phases? What if there were no intermolecular forces? The.

Chapter 10 Physical Characteristics of Gases. Kinetic Molecular Theory  Particles of matter are ALWAYS in motion  Volume of individual particles is.

Unit 5: Gases and Gas Laws. Kinetic Molecular Theory  Particles of matter are ALWAYS in motion  Volume of individual particles is  zero.  Collisions.

Combined Gas Law The combined gas law combines Boyle’s Law and Charles’ Law.

Gas Laws Units Used With Gas Laws PRESSURE: The force applied by many gas particles colliding with each other. 1.Atmospheres (atm) STP= 1atm 2.Pounds.

Not so long ago, in a chemistry lab far far away… May the FORCE/area be with you.

Pressure and Temperature William Thomson “Lord Kelvin”

Unit 7.1: Measurements on Gases. II) (7.1) Measurements on gases: a) Volume, amount, and temperature. i) A gas expands uniformly to fill any container.

Pressure and Temperature William Thomson “Lord Kelvin”

1. List 5 properties of gases 2. Identify the various parts of the kinetic molecular theory 3. Define pressure 4. Convert pressure into 3 different units.

The Gas Laws A Tutorial on the Behavior of Gases..

Section 10-2: Pressure Pressure (P): the force per unit area on a surface Pressure = Force / Area Newton (N): SI unit of force.

1 Gases Mr. Wally Chemistry. 2 Kinetic Theory of Gases ► Molecules in random motion: strike each other and walls of container. ► Force exerted on walls.

Copyright©2000 by Houghton Mifflin Company. All rights reserved. 1 A Gas 4 Uniformly fills any container. 4 Mixes completely with any other gas 4 Exerts.

Unit 5: Gases and Gas Laws. Kinetic Molecular Theory  Particles of matter are ALWAYS in motion  Volume of individual particles is  zero.  Collisions.

Pressure!. Pressure Defined Force per unit area Force is a push or pull  Units of force are Newtons P = F/a Measured with a barometer.

Gases and their Properties. Kinetic-Molecular Theory Gases = large #’s of tiny particles spaced far apart Gases = large #’s of tiny particles spaced far.

Gases and Pressure Section Vocabulary Pressure: the force per unit area on a surface Atmospheric pressure: the force per unit area exerted against.

Pressure. The amount of force an object puts on a surface. Pressure is measured by a barometer. Atmospheric pressure comes from air being pulled down.

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

C. Johannesson CHARACTERISTICS OF GASES Gases expand to fill any container. random motion, no attraction Gases are fluids (like liquids). no attraction.

In order to compare two gases, we choose a standard temperature and pressure: STP: standard temperature and pressure → K and 101 kPa → one mole.

Gas Notes. Physical Properties of all gases  Gases have mass  Gases are easily compressed –Air in you car tires, air in a basketball  Gases will expand.

PRACTICE AND REVIEW GAS LAWS. STUDENT LEARNING OBJECTIVES 1.Define pressure. Identify units of pressure and make conversions between appropriate pressure.

Gases. Units of Pressure 1atm. = 760mm Hg (torr) = 101,325 pascals (Pa) = kPa = psi.

1. Pressure is defined as the force per unit area on a surface. 2. The SI Unit for force is the newton (N). A newton is the Force that will increase The.

Chapter 5 - Gases DE Chemistry Dr. Walker.

The Behavior of Gases.

Units of Pressure Scientists have agreed on standard conditions of exactly 1 atmosphere (atm) pressure and 0oC. These conditions are called “standard.

Unit 5: Gases and Gas Laws

Chapter 13 States of Matter

Phase Changes Courtesy

Pressure and Temperature

Boyle’s Law Pressure and Volume.

Gases Boyle’s Law.

1.15 Common Units of Pressure

The Nature of Gases Under Pressure!

Chapter 11 Pressure and Force

The Behavior of Gases.

Gases and Gas Laws.

Gas Laws Pressure.

Ch.14: Gas Laws Part 1.

Gases Chapter 13-1.

Chapter 11 Gases and Pressure Section 1.

Presentation transcript:

Pressure and Temperature William Thomson “Lord Kelvin”

CA Standards Students know the values and meanings of standard temperature and pressure (STP). Students know how to convert between the Celsius and Kelvin temperature scales. Students know there is no temperature lower than 0 Kelvin.

Measuring Pressure The first device for measuring atmospheric pressure was developed by Evangelista Torricelli during the 17th century. The device was called a “barometer” Baro = weight Meter = measure

An Early Barometer The normal pressure due to the atmosphere at sea level can support a column of mercury that is 760 mm high.

Pressure Is caused by the collisions of molecules with the walls of a container is equal to force/unit area

Standard Pressure 1 standard atmosphere (atm) 101.3 kPa (kilopascals) 14.7 lbs/in2 760 mm Hg (millimeters of mercury) 760 torr

Pressure Pressure is the force created by the collisions of molecules with the walls of a container Unit Symbol Definition/Relationship Pascal Pa SI pressure unit 1 Pa = 1 newton/meter2 Millimeter of mercury mm Hg Pressure that supports a 1 mm column of mercury in a barometer Atmosphere atm Average atmospheric pressure at sea level and 0 C Torr torr 1 torr = 1 mm Hg

The Kelvin Scale

Standard Temperature Standard Temperature equals: 273 Kelvin (273 K) 0 C

Converting Celsius to Kelvin Gas law problems involving temperature require that the temperature be in KELVINS! Kelvins = C + 273 °C = Kelvins - 273

Standard Temperature and Pressure “STP” Either of these: 273 Kelvin (273 K) 0 C Standard Temperature and Pressure “STP” And any one of these: 1 atm 101.3 kPa 14.7 lbs/in2 (psi) 760 mm Hg 760 torr

Standard Molar Volume One mole of a gas at STP has a volume of 22.4 Liters

Mole Relationships Liters Mole Grams Atoms or molecules 6.02 x 1023 22.4 L 6.02 x 1023 22. 4 L Mole Mole Relationships Atomic Mass Grams