Presentation is loading. Please wait.

Presentation is loading. Please wait.

How are gases different from solids and liquids?

Published byIvan Adi Cahyadi Modified over 6 years ago

Similar presentations

Presentation on theme: "How are gases different from solids and liquids?"— Presentation transcript:

1 How are gases different from solids and liquids?

2 What is pressure? -start by asking students: you guys looked at different properties of gases and how they behave in different scenarios, or under different conditions. What type of properties were you guys looking at (Chemical or Physical)? Physical -So today we are going to talk about pressure, what it is, and why it might be important to understand if we are to make a case for understanding or doing inquiry into atmosphere. SO first, what do you THINK pressure is—who can define it?

3 Pressure: the amount of force applied over a given area
Force = weight Area = size of a surface or amount of space the surface of an object takes up Area = length x width

4 Pressure is a mathematical relationship
Pressure = _Force_ Area P = __F__ A As amount of force applied increases, pressure increases (Direct Relationship) As area increases, pressure decreases (Inverse Relationship)

5 Which would you rather be stepped on by? Why?

6 Gas molecules exert pressure on the walls of their container
List at least one piece of evidence of that you observed of this during the lab. How do you know? TPS: have student write evidences on slide/notesheet

7 Standard Unit for force = Newton (N)
Force is a function of mass and gravity Standard Unit for area = Meters Squared (m2) A wireless mouse, a medium-sized apple, and a stick of butter each exert about 1N of force.

8 Standard Unit for pressure = Pascal (Pa)
1Pascal = 1N of force exerted over an area of 1m2 1Pa = pressure exerted on a slice of bread by a thin layer of butter Other units for pressure: pounds per square inch (psi), millimeters of mercury (mmHg), atmospheres (atm), kiloPascals (kPa)

9 International System of Units (SI)
Base units: express one measurement (Ex: length, mass) Derived units: combine two or more base units (Ex: density, pressure)

10 Units for Pressure – must be able to use all (conversion factors!)
1 atm = 760 mmHg = kPa 1 kPa = 1000 Pa 1lb/in2 = 6,894 Pa

11 Is each brick exerting the same total force on the ground? Explain.

12 To Do: Due at end of the period.
1) Complete A.3 Applications of Pressure (#1-4) 2) Read A.4 - (Atmospheric Pressure: pressure exerted by weight of the atmosphere) 3) Choose two investigations from the A.1 Properties of Gases Lab and explain how they showed the effects of atmospheric pressure.

Download ppt "How are gases different from solids and liquids?"

Similar presentations

Gases.

Gases.
Kinetic Molecular Theory of Gases and the Gas Laws

Kinetic Molecular Theory of Gases and the Gas Laws
Chapter 11: Behavior of Gases

Chapter 11: Behavior of Gases
Chapter 10 PHYSICAL CHARACTERISTICS OF GASES

Chapter 10 PHYSICAL CHARACTERISTICS OF GASES
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.

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.
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.

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.
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.

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.
Unit 4 Sections A.4-A.6 In which you will learn about:

Unit 4 Sections A.4-A.6 In which you will learn about:
The Properties of Gases. Properties of Gases 1. Gases expand to fill the container. 2. Gases take on the shape of the container. 3. Gases are highly compressible.

The Properties of Gases. Properties of Gases 1. Gases expand to fill the container. 2. Gases take on the shape of the container. 3. Gases are highly compressible.
1. Gases & Atmospheric Chemistry Gases; a unique state of matter following their own laws and displaying interesting chemical behaviour

1. Gases & Atmospheric Chemistry Gases; a unique state of matter following their own laws and displaying interesting chemical behaviour
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.

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.
Chapter 12: States Of Matter

Chapter 12: States Of Matter
Gases. Characteristics of Gases Gases are fluids Gases are fluids –In other words, they can flow. Gases have low density Gases have low density –Most.

Gases. Characteristics of Gases Gases are fluids Gases are fluids –In other words, they can flow. Gases have low density Gases have low density –Most.
Unit 1 Gases. The Nature of Gases Objectives: 1. Describe the assumption of the kinetic theory as it applies to gases. 2. Interpret gas pressure in terms.

Unit 1 Gases. The Nature of Gases Objectives: 1. Describe the assumption of the kinetic theory as it applies to gases. 2. Interpret gas pressure in terms.
 The force applied divided by the surface area  Pressure = Force/Area  Force (or weight) of an object depends on its mass and the pull of gravity.

 The force applied divided by the surface area  Pressure = Force/Area  Force (or weight) of an object depends on its mass and the pull of gravity.
Section 10-2: Pressure Pressure (P): the force per unit area on a surface Pressure = Force / Area Newton (N): SI unit of force.

Section 10-2: Pressure Pressure (P): the force per unit area on a surface Pressure = Force / Area Newton (N): SI unit of force.
Gases KMS 8 th Grade Science Ms. Bormann The Nature of Gases The first gas to be studied was air & it was a long time before it was discovered that air.

Gases KMS 8 th Grade Science Ms. Bormann The Nature of Gases The first gas to be studied was air & it was a long time before it was discovered that air.
Chemistry Modeling 2013. Pressure Macro-Scale Pressure is the amount of force exerted over a given area The force exerted is caused by particles collisions.

Chemistry Modeling Pressure Macro-Scale Pressure is the amount of force exerted over a given area The force exerted is caused by particles collisions.
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.

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.
Explorations of Pressure and Variations of Pressure First, what is pressure?  Can you think of examples of pressure?

Explorations of Pressure and Variations of Pressure First, what is pressure?  Can you think of examples of pressure?

Similar presentations

Ads by Google