U3f – L4 Solve these problems 1.A gas is compressed from a volume of 100 mL to a volume of 50 mL. The ending pressure is 2 psi. What was the starting pressure?

Slides:

Advertisements

Similar presentations

1 Chapter 11Gases 11.3Pressure and Volume (Boyles Law) Copyright © 2008 by Pearson Education, Inc. Publishing as Benjamin Cummings.

Advertisements

Pressure Volume & Temperature. In liquids and solids, the primary particles (atoms or molecules) are always in contact with each other. In gases, particles.

March 28, 2011 DRILL Solve these problems

U3f – L3 1. Take out your homework problem worksheet so that we can go over it now. March 17, 2010 DRILL.

Properties of Fluids. Buoyancy Fluid = a liquid OR gas Buoyancy = The ability of a fluid (a liquid or a gas) to exert an upward force on an object immersed.

Chapter 14 Forces in Fluids. Fluid Pressures Like solids, liquids and gases can be forces (push or pull) Force that exists in fluids are caused by the.

1 Chapter 6Gases 6.3 Pressure and Volume (Boyle’s Law) Copyright © 2009 by Pearson Education, Inc.

Pressure and Volume (Boyle’s Law)

Pressure in Gases (Ideal Gases) Objectives (a) state Boyle’s law.

The Ideal Gas Law.

Chapter 12 The Laws of Thermodynamics. Work in Thermodynamic Processes Work is an important energy transfer mechanism in thermodynamic systems Work is.

Gas Laws. Molecular Picture of Gas Gas is made up of many individual molecules Number density is number of molecules/volume: –N/V =  /m –  is the mass.

UNIT THREE: Matter, Energy, and Earth  Chapter 8 Matter and Temperature  Chapter 9 Heat  Chapter 10 Properties of Matter  Chapter 11 Earth’s Atmosphere.

Direct Variation.

Bell Work: GAS LAWS Directions: Choose the gas law that is necessary to solve each problem. Do NOT write down or solve the problems. 1.A gas that has.

Kinetic Molecular Theory High kinetic energy. Move rapidly in straight lines. Are very far apart. Have essentially no attractive (or repulsive) forces.

7.3 Pressure and Volume (Boyle’s Law)

Basic Chemistry Copyright © 2011 Pearson Education, Inc. 1 Chapter 11 Gases 11.3Pressure and Volume (Boyle’s Law)

Chapter 6 Gases 6.1 Properties of Gases.

Chapter 11 Behavior of Gases. Warm-up #1 How much force do you think it would take to crush this railroad tank car? Stay tuned.

CHARLES’ LAW A gas in a closed system at a constant pressure, the temperature and the volume are directly proportional.

U3f - L1 Copy the sentences in your notebook. Fill in the blanks using the terms below: 1._______ is how much space an object occupies. 2._______ is a.

U3f - L1 Copy the sentences in your notebook. Fill in the blanks using the terms below: 1._______ is how much space an object occupies. 2._______ is a.

Direct and Inverse Variations Direct Variation When we talk about a direct variation, we are talking about a relationship where as x increases, y increases.

Gases and Their Properties CH 11. Areas to Explore  Gas Particles and Motion Gas Particles and Motion  Gas Variables Gas Variables  Manipulating Variables.

Jeopardy Measuring Gases P and T and V V and T and P BoylesCharles Q $100 Q $200 Q $300 Q $400 Q $500 Q $100 Q $200 Q $300 Q $400 Q $500 Final Jeopardy.

Gas Laws. A. Characteristics of Gases Gases expand to fill any container. –random motion, no attraction Gases are fluids (like liquids). –no attraction.

Direct and Inverse Variations Direct Variation When we talk about a direct variation, we are talking about a relationship where as x increases, y increases.

10.3 Properties of Fluids  A fluid is defined as any matter that flows when force is applied.  Liquids like water or silver are kinds of fluid.

Chemistry An Introduction to General, Organic, and Biological Chemistry, Eleventh Edition Copyright © 2012 by Pearson Education, Inc. Chapter 6 Gases 6.3.

Density is the amount of mass in a specific volume cm 3.

Chapter 6 Gases 6.1 Properties of Gases.

U3f - L1 Copy the sentences in your notebook. Fill in the blanks using the terms below: 1._______ is how much space an object occupies. 2._______ is a.

Boyle’s Law Mathematical relationship between pressure and volume.

U3f – L2 1.Using the chart of information you recorded yesterday, add two new columns onto your chart. 2.Title one column “1/P” and calculate 1/P for each.

1 Mr. ShieldsRegents Chemistry U05 L05 2 Robert Boyle Robert Boyle (1627 – 1691) -Boyle’s law (1662) Expresses the relationship between Pressure and.

Chapter 11 - Gases Properties of Gases Gas Pressure Copyright © 2008 by Pearson Education, Inc. Publishing as Benjamin Cummings.

10.4 Buoyancy, volume, temperature, and pressure of gases  A hot-air balloon floats because the air inside is less dense than the air outside.  The balloon.

Pascal’s Principle – The pressure applied to any surface of a confined fluid is transmitted equally in every direction throughout the fluid.

Gas Laws Review. A sample of carbon dioxide occupies a volume of 3.5 L at 125 kPa pressure. What pressure would the gas exert if the volume was lowered.

Inverse Variation. A relationship that can be written in the form y =, where k is a nonzero constant and x ≠ 0, is an inverse variation. The constant.

Behavior of Gases Notes The space that gas particles occupy is the gas’s, which can change because of and Temperature Temperature is a measure of Temperature.

U3f – L3 1.Sketch the relationship between Pressure and Volume 2.Sketch the relationship between 1/Pressure and Volume March 25, 2011 DRILL.

TODAY: FOLDERS: Opening and Closing Exercise New Assignment: Worksheet on Pressure/Volume CALCULATORS HEADPHONES AND ELECTRONICS AWAY UNTIL INSTRUCTED.

Chapter 11 - Gases Properties of Gases Gas Pressure Copyright © 2008 by Pearson Education, Inc. Publishing as Benjamin Cummings.

Chemistry: An Introduction to General, Organic, and Biological Chemistry, Twelfth Edition© 2015 Pearson Education, Inc. 8.1 Properties of Gases Generally,

TOPIC: BOYLE’S LAW Do Now: According to the KMT, Why do gases exert pressure Answer: Gas particles are in constant motion, pushing on the walls of their.

U3f – L3 March 9, 2010 DRILL Get with a reliable partner and go over last night’s homework together – Fluid Worksheet We will be going over the homework.

Review for Test 5 Gas Laws.

AGENDA 10/28/08 DO NOW: (5 mins) Solving Gas Law Problem

U3f – L3 April 17, 2008 DRILL Get with a reliable partner and go over last night’s homework together (numbers 1-5 on front of worksheet). We will be going.

AGENDA 10/27/08 DO NOW: (5 mins) Gas Law equation MINI LESSON:(10-15)

8.2 Pressure and Volume, (Boyle’s Law)

U3f – L2 March3, 2010 DRILL Using the chart of information you recorded yesterday, add two new columns onto your chart. Title one column “1/P” and calculate.

Chapter Thirteen: The Behavior of Gases

By: Trent, Antwain, Megan and Stacey

General, Organic, and Biological Chemistry

UNIT THREE: Matter, Energy, and Earth

P1V1 = P2V2 (99.0 kPa) (300.0 mL) = (188 kPa) V2

Atmospheric Pressure Pressure is equal to a force per area. The gases in the air exert a pressure called atmospheric pressure. Atmospheric pressure is.

Kinetic Theory Explains how particles in matter behave

Chemistry Notes Unit 7: P, V and ‘n’

Atmospheric Pressure Pressure is equal to a force per area. The gases in the air exert a pressure called atmospheric pressure. Atmospheric pressure is.

Chapter Thirteen: The Behavior of Gases

U3f - L1 March 12, 2010 DRILL Copy the sentences in your notebook. Fill in the blanks using the terms below: _______ is how much space an object occupies.

Sabreena, Olivia Jahari, Cindy

Chapter 6 Gases 6.3 Pressure and Volume Boyle’s Law.

Presentation transcript:

U3f – L4 Solve these problems 1.A gas is compressed from a volume of 100 mL to a volume of 50 mL. The ending pressure is 2 psi. What was the starting pressure? 2.A 165 lb teacher stands exerts a pressure of 10 psi on a block of wood. What is the area of the block of wood? Take out handout from yesterday. March 29, 2011 DRILL

U3f – L4 A gas is compressed from a volume of 100 mL to a volume of 50 mL. The ending pressure is 2 psi. What was the starting pressure? Drill # 1 Step 1: Write given information P1 = ? V1 = 100 mL P2 = 2 psi V2 = 50 mL Step 2: Write the formula and solve P 1 *V 1 =P 2 *V 2 P1* 100 mL = 2 psi*50mL P1*100mL = 100mL*psi P1 =100 psi*mL/(100mL) P1= 1psi

U3f – L4 A 165 lb teacher stands exerts a pressure of 10 psi on a block of wood. What is the area of the block of wood? Drill #2 Step 1: Write given information P = 10 psi F = 165 lb A = ? Step 2: Write the formula and solve P = F/A 10psi = 165lb/A 10psi * A = 165 lb A = 165 lb/(10 psi) A = 16.5 in 2

Read these articles Self-Cleaning Windows on page 59 Gas-Plasma Displays on page 245 Synthetic Fuels on page 265 Wind Tunnels on page 660. For each question, letter responses in complete sentences to the following questions? What is this technology used for? How does it relate to fluid technology? What other core technologies are important for this technology? What did people use before this technology? U3f – L4

P = F / A (Pressure = Force / Area) PV = k (Pressure x Volume = Constant) P 1 V 1 = P 2 V 2 (Initial P x Initial V = Final P x Final V) Equations you must know U3f – L3

Work in pairs. Solve the problem by showing all of the steps U3f – L4

A basketball has 5 psi of pressure and 100 mL of volume. What is the pressure multiplied by the volume equal to? If we decrease the volume to 20 mL, what is Pressure times Volume? Problem 1 Step 1: Write givn information P1 = 5 psi V1 = 100mL P2 = ? V2 = 20mL Step 2: Write the formula and solve PV = k 5 psi * 100 mL = k k = 500 mL*psi

U3f – L4 Two 175 lb teachers stand on a block of wood with 50 in 2 in area. What is the total pressure Problem 2 Step 1: Write given information P = ? F = 175 lb x 2 = 350 lbs A = 50 in 2 Step 2: Write the formula and solve P = F/A P = 350lb/ 50 in 2 P= 7 psi

U3f – L4 Your lungs have a volume 4000 mL when you breathe in and 1000 mL after you exhale. If the pressure when you breathe in is 15 psi, what is the pressure when you breathe out Problem 3 Step 1: Write givn information P1 = 15 psi V1 = 4000 mL P2 = ??? V2 = 1000 mL Step 2: Write the formula and solve P1V1 =P2V2 15 psi * 4000 mL = P2*1000 psi 60,000 mL*psi = P2 *1000psi P2 = 60 psi

U3f – L4 The air in your tires has a pressure of 50 psi and a volume of 1,600 mL. If the pressure inside the tire decrease to 40 psi, what would the new volume be? Problem 4 Step 1: Write givn information P1 = 50 psi V1 = 1600 mL P2 = 40 psi V2 = ?? Step 2: Write the formula and solve P1V1 =P2V2 50 psi * 1600 mL = P2*V2 80,000 mL*psi = 40 psi *P2 P2 = 2000 mL