What does scuba stand for? Scuba stands for - Self-Contained Underwater Breathing Apparatus. How does it work? Scuba diving makes human mobile to see.

Slides:

Advertisements

Similar presentations

Feel the Pressure! What happens when you shake a can of soda and then open it? What is happening to the gases in the can of soda?

Advertisements

13-3: The Gas Laws. What are the Gas Laws? The Gas Laws: are mathematical representations of the interaction between the four variables of gas: 1)Pressure.

Section 2 – The Gas Laws Scientists have been studying physical properties of gases for hundreds of years. In 1662, Robert Boyle discovered that gas.

The Behavior of Gases Chapter 14.

Physical Characteristics of Gases

1 Ch 10.1 Kinetic Theory: 5 assumptions 1.small particles - far apart 2.Movement random, rapid & continuous 3.Collisions are elastic 4.No attractive/repulsive.

Chapter 10 PHYSICAL CHARACTERISTICS OF GASES

1 Lecture 6 Gases Properties of Gases Gas Pressure Copyright © 2007 by Pearson Education, Inc. Publishing as Benjamin Cummings.

Chapter 13 The Gas Laws. Robert Boyle studied how gas volume varied with changes in pressure.

Gases Ch. 6 Chemistry II Milbank High School. Kinetic Molecular Theory All matter is composed of tiny, discrete particles called molecules They are in.

KINETIC MOLECULAR THEORY AND PRESSURE 13.3: pgs. 474 – 478 & 13.1: pgs

Compressibility Compressibility is a measure of how much the volume of matter decreases under pressure.

Gas Laws Chapter 12. Boyle’s Law: The Pressure-Volume Relationship The Anglo-Irish chemist, Robert Boyle ( ), was the first person to do systematic.

Gas Laws BOYLE CHARLES AVOGADRO GAY-LUSSAC What happens to the volume of a gas when you increase the pressure? (e.g. Press a syringe that is stoppered)

#1. Boyle’s Law Gas pressure is inversely proportional to the volume, when temperature is held constant. Pressure x Volume = a constant Equation:

The Gas Laws. Introduction Scientists have been studying physical properties of gases for hundreds of years. In 1662, Robert Boyle discovered that gas.

The Behavior of Gases AW Chapter 10, section 1 and Chapter 12.

Gas Laws Fundmentals KINETIC MOLECULAR THEORY KINETIC MOLECULAR THEORY  KMT is a model to explain the behavior of gaseous particles and is based on.

Unit 8 Chemistry Langley

The Behavior of Gases Chapter 14.

1 Chapter 5: GASES Part 2. 2 Dalton’s Law of Partial Pressures  Since gas molecules are so far apart, we can assume that they behave independently. 

GASES and the Kinetic Molecular Theory A.Gas particles DO NOT attract or repel each other B.Gas particles are much smaller than the distances between them.

Gas Laws By: Ms. Buroker. Gas Laws Gas Laws explores the relationships between: Volume, V … Liters Temperature, T … Kelvin Amount, n … moles Pressure,

You can predict how pressure, volume, temperature, and number of gas particles are related to each other based on the molecular model of a gas.

Unit 12 - Gases Pressure Pressure and Volume: Boyle’s Law Volume and Temperature: Charles’s Law Volume and Moles: Avogadro’s Law Ideal Gas Law Dalton’s.

CLE Apply the kinetic molecular theory to describe solids, liquids, and gases. CLE Investigate characteristics associated with the gaseous.

Gas Laws Ch. 14. Gases Kinetic Molecular Theory (KMT) says: –Gases have mass demo –Gases are easily compressed –Gases fill their container completely.

ATOC 4720: classes 8&9 1. The gas laws 1. The gas laws 2. Virtual temperature 2. Virtual temperature.

Starter S-146 List five properties of gases.. The Behavior of Gases Chapter 14.

The Gas Laws. INTRODUCTION TO GASES I can identify the properties of a gas. I can describe and explain the properties of a gas.

Objectives To learn about atmospheric pressure and how barometers work

CSAN Review of Principles. Daltons law and Partial Pressure In a mixture of gases, each gas has a partial pressure which is the pressure which the gas.

 Gas-Laws.html Gas-Laws.html  ho/lessons/lessindex7.htm.

Section 11–2: The Gas Laws Coach Kelsoe Chemistry Pages 369–375.

Gas Laws & Absolute Zero Thermal Physics Lesson 3.

1 Chapter 7 Gases 7.1 Properties of Gases 7.2 Gas Pressure.

Chapter 6 Gases Properties of Gases 6.2 Gas Pressure Kinetic Theory of Gases A gas consists of small particles that move rapidly in straight lines.

Chapter 5 Gas Laws. Scuba Diving Dive Belize Air… The atmosphere is.

Gases Online Lecture Part 2. Gas Density and Molar Mass Using the ideal gas law and the density of a gas you can solve for the molar mass of the gas.

Gas Laws A. The ____ _____ are simple mathematical relationships between the _______, _______, ___________, and __________ of a gas. gas laws pressure.

The Ideal Gas Law No gas perfectly obeys all of the gas laws under all conditions. Nevertheless, these assumptions work well for most gases and most conditions.

Gay-Lussac’s LawGay-Lussac’s Law  Pressure and temperature relationship  Pressure results from molecular collisions  Pressure of gas is DIRECTLY proportional.

The 5 Gas laws Jorge Guzman Per 5. Boyle's law shows that, at constant temperature, the product of an ideal gas's pressure and volume is always constant.

Gas Laws. Boyles Law -Pressure and volume are Inversely proportional, or as one increases the other decreases at the same rate, assuming temperature is.

Gases KMT = particles constant motion AKE, temperature, pressure, volume, amount of a gas are all related.

Pages Chp 11 Gas Laws. Boyle’s Law P V PV = k.

Charles’ Law V 1 = V 2 T 1 T 2 Volume is directly proportional to temp (Pressure constant) Boyle’s Law P 1 V 1 = P 2 V 2 Pressure is inversely proportional.

II. The Gas Laws (p ) Ch. 10 & 11 - Gases.

Gas Laws. Boyle’s Law  Shows the relationship between volume and pressure  Temperature and amount of gas is held constant 

Gases. The Nature of Gases  1. Gases have mass –A car tire weighs more with air in it than it would completely empty.  2. It is easy to compress a gas.

GAS LAWS Boyle’s Charles’ Gay-Lussac’s Combined Gas Ideal Gas Dalton’s Partial Pressure.

Kinetic molecular theory part 2 Chapter 14 continued.

The Gas Laws. properties Thornburg 2014.

*Boyle’s Law *Charles’s Law Gay-Lussac Combined Gas Law

Objectives To learn about atmospheric pressure and how barometers work

Dalton’s, Boyle’s and Charles’s Laws

IV. Gas Laws Continued.

Starter S-146 List five properties of gases..

Pressure – Temperature:

GAS LAW APPLICATION FOR SCUBA DIVING

The Behavior of Gases.

Charles, Boyle, Guy-Lussac

Factors that affect gases

GASES and the Kinetic Molecular Theory

Presentation transcript:

What does scuba stand for? Scuba stands for - Self-Contained Underwater Breathing Apparatus. How does it work? Scuba diving makes human mobile to see under water creatures and explore exotic places under the sea. Over the years Scuba technology has advanced, which means equipment is easier to use and and its, safer and more affordable.

Boyle’s Law? Boyle's law describes the inversely proportional relationship between the absolute pressure and volume of a gas, if the temperature is kept constant within a closed system. The law was named after chemist and physicist Robert Boyle, who published the original law in Equation Below: P1 V1 = 1 or P1 V1 = P2 V2 P2 V2 Boyle's Law

At constant pressure, the volume of a given mass of an ideal gas increases or decreases by the same factor as its temperature (in Kelvin) increases or decreases. The law was published by Joseph Louis Gay-Lussac in Equation Below: V = K T

States that the total pressure exerted by a gaseous mixture is equal to the sum of the partial pressures of each individual component in a gas mixture. This empirical law was observed by John Dalton in 1801 and is related to the ideal gas laws. Equation Below: PT = P1 + P Pn

The bends can also be recognized as Decompression Sickness. Decompression sickness can be defined as a condition arising from the precipitation of dissolved gasses into bubbles inside the body on depressurization.

Air embolisms can be defined as tiny bubbles of air being transmitted into the bloodstream which could led to a defect in the human body.

Oxygen Toxicity can be defined as a condition resulting from the harmful effects of breathing molecular oxygen (O 2 ) at elevated partial pressures.