Gas Behavior and Gas Laws

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Presentation transcript:

Gas Behavior and Gas Laws Physical Science Gas Behavior and Gas Laws

Objectives Explain how the volume, temperature, and pressure of a gas are related. Define what Boyles and Charles laws mean and how they are different.

Gas No shape of its own, takes the shape of the container it is in. No definite volume, easily compressed Measuring Gases – three important measurements taken for gases. All three are closely related!! Volume Temperature & Pressure

Gas Volume Temperature Pressure Area Gases dissipate to evenly fill the container they occupy Temperature 1. The measurement of the average thermal energy of the particles in the gas. 2. The average speed of a gas molecule at room temperature is fast!! 500meters per second! Pressure gas particles are in constant motion and exert pressure upon the container they occupy. Because the gas particles are in motion, they collide and bounce off each other and the sides of the container. This contact w/ the sides of the container causes and outward push. Pressure = Force Area

Relating Temperature & Pressure (at a constant volume) If the temperature increases, the added thermal energy causes the particles to push harder on the inside surface of the container… this causes the pressure to also go up. If the temperature decreases, the pressure decreases. Example: leaving a basketball outside on a cold night causes the ball to go flat

Relating Pressure and Volume (at a constant Temperature) BOYLES LAW – As volume is decreased pressure will increase, and conversely; if the volume is increased, the pressure will decrease Boyles Law (Pressure goes up  Volume goes down @ constant temperature) Pressure is inversely proportional to the volume

Relating Volume & Temperature (at a constant Pressure) Charles Law- As the temperature increases the volume will also increase; conversely, as the temperature decreases the volume will also decrease. Charles Law (Temp goes up  Volume goes up @ constant pressure) Temperature is directly proportional to volume.

C. Charles’ Law -273°C or 0 K Absolute Zero - Temp at which... the volume of a gas would equal zero. all particle motion would stop. -273°C or 0 K

B. Boyle’s Law When the volume of a gas decreases, its pressure increases (at constant temp). P = k/V P V AN INVERSE RELATIONSHIP

C. Charles’ Law When the temperature of a gas increases, its volume also increases (at constant pressure). V T DIRECT

Graphing Gas Behavior variable – the factor that can change in an experiment manipulated variable –  (independent variable) one variable that is changed to test the hypothesis responding variable – (dependent variable) the factor that changes because of the manipulated variable Responding Variable Responding Variable Manipulated Variable Manipulated Variable