Application of Gas Laws

Jul 30, 2014

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Application of Gas Laws. Jona Seigel Mack Morgan. Problem.

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air bag
jonaseigel mack morgan
problem
what quantity
gas laws
sodium azide

tokala

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Application of Gas Laws

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Application of Gas Laws JonaSeigel Mack Morgan
Problem • You are asked to design an air bag for a car. You know that the bag should be filled with a pressure at 829 mm Hg, and at 22 degrees C. The bag has a volume of 45.5 L. What quantity of sodium azide, NaN3, should be used to generate the required quantity of gas? The reaction is 2 NaN3 2 Na + 3 N2

Gas Laws

Gas Laws. Chapter 11. Kinetic Molecular Theory (KMT). Gas particles are tiny (molecular size is negligible compared to total volume of gas) Gas particles are in constant, rapid, random motion Particles are small spheres with insignificant volume Particles are far apart

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Gas Laws

Gas Laws. Chapter 13. Warm Up!. If you have a balloon filled with air and the temperature increased what would you observe? what happens to the gas particles inside the balloon? What would happen if the temperature was decreased?. Today’s Agenda.

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Gas Laws

Gas Laws. Collisions between particles of a gas and the walls of the container cause the pressure in a closed container of gas Factors that affect the pressure of an enclosed gas are its temperature, its volume, and the number of its particles. Charles’s Law.

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Gas Laws

Gas Laws. Gas Pressure. Just means that gas is “pushing” on something. Gas Pressure. What’s going on inside?. Air: Nitrogen 78% Oxygen 21% Argon ~1% Carbon Dioxide <1%. Each of these particles are constantly flying around. Like a lotto ball!.

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Gas Laws

Gas Laws. Lesson 2. Boyle’s Law. States that the volume of a given amount of gas held at a constant temperature varies inversely with the pressure. P 1 V 1 = P 2 V 2 Example problem

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Gas Laws

Gas Laws. B. Charles’s Law - the temperature of a gas is directly proportional to the volume (provided the pressure remains constant) The temperature must be in Kelvins! Mathematical equation: V 1 = V 2 T 1 T 2

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Gas Laws

Gas Laws. Alex Daro, Brian Kuttler, and Max O'Donnell. Properties of Gases. Gases have mass Gases are easy to compress Gases fill to their container Diffusion is when gases move through other gases Gases exert pressure. Kinetic Molecular Theory. Gases consist of small particles

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Gas Laws

Gas Laws. Gases-Review. Remember: - according to the kinetic theory, all matter is composed of particles in constant motion, and pressure is caused by the force of gas particles striking the walls of their container.

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Gas Laws

Gas Laws. Consider the following questions: ·Why should you never leave an aerosol can in your car or trunk in the heat of the summer? ·Why is the first lesson in scuba diving to NOT hold your breath as you ascend?

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Gas Laws

Gas Laws. CA Standards. Students know how to apply the gas laws to relations between the pressure, temperature, and volume of any amount of an ideal gas or any mixture of ideal gases. Ideal Gases.

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Gas Laws

Gas Laws. STP. Standard Temperature and Pressure 0 °C and 1 atm. Boyle’s Law. At a constant temperature pressure and volume are inversely related. As one goes up the other goes down P x V = K (K is some constant) Easier to use P 1 V 1 =P 2 V 2. P. V. Examples.

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Gas Laws

Gas Laws. Charles, Boyle, Gay-Lussac, Combined and The Ideal Gas Law. What did you learn from the lab?. What we know about gases from observation Gases have mass. Its easy to compress gases. Gases fill their containers completely. Different gases can move through each other quite rapidly.

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Gas Laws

Gas Laws. What is pressure?. Pressure is the force created by the collision of particles with the walls of their containers. As you decrease the volume of the container, the particles collide more often. Units: atm, kPa, mmHg, and torr. What is Pressure?.

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Gas Laws

Gas Laws. Why does a gas station sell liquid fuel?. Values and units. P —mmHg, atm, torr, kPa, Pa T —k (could be given o C ) V —ml,L,m 3 n —mol (could be given # of particles, mass) (special cases) FM—g/mol (or kg/mol) D—g/L Rate or speed—m/s. Boyle’s Law.

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Gas Laws

Gas Laws. Corinne McKenna 8 th Grade. Properties. Temperature (T), measured in Kelvins (K) Pressure (P), measured in atm Volume (V), measured in liters (L). Boyle’s Law. P 1 V 1 =P 2 V 2. http:// ygraph.com /chart/1535. Charles’s Law. V 1 /T 1 =V 2 /T 2.

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Application of Gas Laws

Application of Gas Laws. Jona Seigel Mack Morgan. Problem.

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Gas Laws

Gas Laws. Factors. Pressure Volume Moles Temperature. Pressure. Common units Atmospheres ( atm ) mm Hg Torr kiloPascals ( kPa ) Pounds per square inch (psi ) Bar or millibar (b or mb ) Influences Weight of air or water above you

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Gas Laws

Gas Laws. Properties of Gases. Have mass Have low densities Easily compressed Completely fill their container Can move through each other rapidly Diffusion : the movement of one substance through another Exert pressure. Gas Pressure.

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GAS LAWS

GAS LAWS. What’s another way to write this equation linearly ?. Combined Gas Law. P 1 V 1 T 2 = P 2 V 2 T 1. Boyle’s Law (constant T). P 1 V 1 T 2 = P 2 V 2 T 1 ?. Boyle’s Law. P 1 V 1 T 2 = P 2 V 2 T 1 P 1 V 1 T 2 = P 2 V 2 T 1. P 1 V 1 = P 2 V 2. Charles’ Law (constant P).

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Gas Laws

Gas Laws. Properties of Gases. Composed of randomly scattered particles No definite _________ or ___________ Spread out to fill the space of their container Lack intermolecular forces that hold liquids and solids together (ideally)

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Gas Laws

Gas Laws. The ideal gas law is used to describe the behavior of an ideal gas . Ideal gas: hypothetical gas that obeys kinetic molecular theory and the ideal gas law Note: You should plan on writing the definition of an ideal gas on your unit 6 exam!. Gas Laws.

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Gas Laws

Gas Laws. CP Chemistry. The Gas Laws. Describe HOW gases behave. Can be predicted by the theory. The Kinetic Theory Amount of change can be calculated with mathematical equations. The effect of adding gas. When we blow up a balloon we are adding gas molecules.

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