Presentation is loading. Please wait.

Presentation is loading. Please wait.

Ch 3.3 States of Matter Physical Science 08 Lee Ann Youse PS08 14 Slides & 27 Slides This is 3 D. We are doing section 4 before section 3. That is Boyle’s.

Published byLeslie Kelley Modified over 8 years ago

Similar presentations

Presentation on theme: "Ch 3.3 States of Matter Physical Science 08 Lee Ann Youse PS08 14 Slides & 27 Slides This is 3 D. We are doing section 4 before section 3. That is Boyle’s."— Presentation transcript:

1 Ch 3.3 States of Matter Physical Science 08 Lee Ann Youse PS08 14 Slides & 27 Slides This is 3 D. We are doing section 4 before section 3. That is Boyle’s Law before Archimedes’ 3.3 B 9/12/20151

2 3.3 Quizzes 3.3 A Questions 45-54 tomorrow--Tuesday 3.3 A Questions 45-54 tomorrow--Tuesday 3.3 B Questions 45-64 (but mostly 55 -64) the next day-- Wed 3.3 B Questions 45-64 (but mostly 55 -64) the next day-- Wed Remember ‘Half’ Test for section 3.3 & 3.4 will be the day after that--Thurs. It will add with the ‘Half’ Test we took on 3.1 & 3.2. THERE WILL BE NO TEST ON ALL OF CHAPTER 3 AT THE SAME TIME. What were those book authors thinking!!!!!  Remember ‘Half’ Test for section 3.3 & 3.4 will be the day after that--Thurs. It will add with the ‘Half’ Test we took on 3.1 & 3.2. THERE WILL BE NO TEST ON ALL OF CHAPTER 3 AT THE SAME TIME. What were those book authors thinking!!!!!  PS08 14 Slides & 27 Slides 9/12/20152

3 Define pressure The amount of force The amount of force exerted on exerted on a given area of surface  a given area of surface  PS08 14 Slides & 27 Slides 9/12/20153

4 Give how fluids are different (from solids ) They exert pressure evenly in all directions  They exert pressure evenly in all directions  PS08 14 Slides & 27 Slides 9/12/20154

5 Review Kinetic Theory of Matter. .  PS08 14 Slides & 27 Slides 9/12/20155

6 Using the kinetic theory of matter to explain how air in a tire (or balloon) works Tiny air particles Tiny air particles push (force) against each other and against the sides, push (force) against each other and against the sides, causing pressure in all directions  causing pressure in all directions  PS08 14 Slides & 27 Slides 9/12/20156

7 Give the formula for pressure in words and symbol form Pressure is equal to force divided by area Pressure is equal to force divided by area PS08 14 Slides & 27 Slides 9/12/20157

8 Give the formula symbol for pressure P PS08 14 Slides & 27 Slides 9/12/20158

9 Give the formula symbol for force F PS08 14 Slides & 27 Slides 9/12/20159

10 Give the formula symbol for area A PS08 14 Slides & 27 Slides 9/12/201510

11 Give the SI unit and its abbreviation for pressure pascalPa PS08 14 Slides & 27 Slides 9/12/201511

12 Give the SI unit and its abbreviation for force newtonN PS08 14 Slides & 27 Slides 9/12/201512

13 Give the SI unit and its abbreviation for area meters squared m2m2m2m2 PS08 14 Slides & 27 Slides 9/12/201513

14 On a clean Sheet of Paper Calculate Pressure, Force, or area Calculate Pressure, Force, or area Write the formula (rearrange if necessary) Write the formula (rearrange if necessary) Substitute # in formula Substitute # in formula Calculate Calculate Write Answer with correct unit. Write Answer with correct unit. 9/12/2015 PS08 14 Slides & 27 Slides 14

15 Quiz tomorrow on Q 45-54 PS08 14 Slides & 27 Slides 9/12/201515

16 Define buoyant force An upward An upward push push exerted by a fluid  exerted by a fluid  PS08 14 Slides & 27 Slides 9/12/201516 http://www.sciencewithme.com/images/uploads/Image/articles/Boat/ice.jpg

17 Explain how buoyant force works Pressure (F/A) increases with depth. Pressure (F/A) increases with depth. The force pushing up is greater than the force pushing down. The force pushing up is greater than the force pushing down. The net force is upward  The net force is upward  PS08 14 Slides & 27 Slides 9/12/201517 http://room34pstext.wikispaces.com/8.8+D ensity+and+Buoyancy video near the bottom of this page http://demo.physics.uiuc.edu/lectdemo/scripts/demo_descript.idc?DemoID=759

18 State and use Archimedes’ Principle The buoyant force on an object in a fluid The buoyant force on an object in a fluid is an upward force equal to the weight is an upward force equal to the weight of the fluid displaced (moved aside)  of the fluid displaced (moved aside)  PS08 14 Slides & 27 Slides http://www.mcs.drexel.edu/~crorres/Archimedes/contents.htmlhttp://www.mcs.drexel.edu/~crorres/Archimedes/contents.html 9/12/201518 http://www.mcs.drexel.edu/~crorres/Archimedes/contents.html http://www.ssl.umd.edu/projects/ControlStation/Personal/SCUBA/Physics&P hys/physics.html http://www.ssl.umd.edu/projects/ControlStation/Personal/SCUBA/Physics&P hys/physics.html http://www.mcs.drexel.edu/~crorres/Archimedes/contents.html http://www.ssl.umd.edu/projects/ControlStation/Personal/SCUBA/Physics&P hys/physics.html http://www.ssl.umd.edu/projects/ControlStation/Personal/SCUBA/Physics&P hys/physics.html

19 Using Archimedes’ Principle, explain how to determine whether an object will float or sink Compare the buoyant force on the object with the object’s weight. Compare the buoyant force on the object with the object’s weight. If the buoyant force is equal to the weight then the object will float. If the buoyant force is equal to the weight then the object will float. If buoyant force is less then the object will sink.  If buoyant force is less then the object will sink.  9/12/2015 PS08 14 Slides & 27 Slides 19

20 Demo “A SHIP, A ROCK AND A LOG” http://www.onr.navy.mil/focus/blowballast/sub /work2.htm  http://www.onr.navy.mil/focus/blowballast/sub /work2.htm  http://www.onr.navy.mil/focus/blowballast/sub /work2.htm http://www.onr.navy.mil/focus/blowballast/sub /work2.htm 9/12/2015 PS08 14 Slides & 27 Slides 20

21 Using the quantity, density, explain how to determine whether an object will float or sink If the density is greater than the density of water, then it will sink. If the density is greater than the density of water, then it will sink. If the density is less than the density of water, it will float.  If the density is less than the density of water, it will float.  9/12/2015 PS08 14 Slides & 27 Slides 21 http://www.dynamicscience.com.au/tester/solutions/flight/buoyancy.htm

22 Using Archimedes’ Principle and density, explain how various materials that are denser than water can still float on water (i.e., a steel ship, sub, etc.) Ships have the steel pushed out into a hollow shape. The shape is larger and pushes more water aside, Ships have the steel pushed out into a hollow shape. The shape is larger and pushes more water aside, giving it a larger buoyant force. giving it a larger buoyant force. Since there is air as well as steel in the ship, Since there is air as well as steel in the ship, the density of the whole ship is less than that of water.  the density of the whole ship is less than that of water.  9/12/2015 PS08 14 Slides & 27 Slides 22 http://3.bp.blogspot.com/_zSLJzcRUXK0/SYEK_Io7nyI/AAAAAAAAAJI/qrped9 K3N1c/S226/buoyant2.gif http://askville.amazon.com/physical-principle-work-called- buoyancy/AnswerDetails.do?requestId=64523085&responseId=64556921

23 State and use Pascal’s Principle Pressure Pressure Applied to a fluid Applied to a fluid Is transmitted unchanged Is transmitted unchanged through out the fluid. through out the fluid. (toothpaste tube, Cartesian Diver, hydraulic devices)  (toothpaste tube, Cartesian Diver, hydraulic devices)  9/12/2015 PS08 14 Slides & 27 Slides 23 video http://www.wfu.edu/physics/demolabs/dem os/avimov/bychptr/chptr4_matter.htm http://dixiehu.files.wordpress.com/2008/02/pascals-law.jpg

24 Give and use Pascal’s principle expressed in mathematical form 9/12/2015 PS08 14 Slides & 27 Slides 24 Go to website: http://home.planet.nl/~brink494/hydr _e.htm

25 State and use Bernoulli’s Principle As the velocity of a fluid increases, As the velocity of a fluid increases, the pressure exerted by the fluid decreases the pressure exerted by the fluid decreases (airplane lift, race car design)  (airplane lift, race car design)  9/12/2015 PS08 14 Slides & 27 Slides 25 http://en.wikipedia.org/wiki/Daniel_Bernoulli http://image.wistatutor.com/content/sources- energy/wind-turbine.jpeg http://abyss.uoregon.edu/~js/images/bernoulli.gif

26 State and use the Venturi Effect 9/12/2015 PS08 14 Slides & 27 Slides 26 http://en.wikipedia.org/wiki/Venturi_effect

27 Use the Venturi Effect 9/12/2015 PS08 14 Slides & 27 Slides 27 http://www.abac.co.uk/Spraying/Images/SparayGun%20Working%20Diag.gif http://dnr.louisiana.gov/sec/execdiv/techasmt/ecep/drafting/b/dr-b13b.gif http://www.thestudentroom.co.uk/showthread.php?t=1210181 Bahrain

28 State and use the Venturi Effect Fluids flow faster when forced to flow in narrow places. Fluids flow faster when forced to flow in narrow places. (rapids, garden hose, squirt bottles, windy cities, etc.)  (rapids, garden hose, squirt bottles, windy cities, etc.)  9/12/2015 PS08 14 Slides & 27 Slides 28 See this video http://home.earthlink.net/~mmc1919/ventur i.html http://en.wikipedia.org/wiki/Giovanni_Battista_Venturi

29 State and use the Venturi Effect Fluids flow faster when forced to flow in narrow places. Fluids flow faster when forced to flow in narrow places. (rapids, garden hose, squirt bottles, windy cities, etc.)  (rapids, garden hose, squirt bottles, windy cities, etc.)  9/12/2015 PS08 14 Slides & 27 Slides 29 See this video http://home.earthlink.net/~m mc1919/venturi.html http://en.wikipedia.org/wiki/Giovanni_Battista_Venturi http://en.wikipedia.org/wiki/Venturi_effect

30 The end Quiz tomorrow Q 45-64 (mostly 55-64). Quiz tomorrow Q 45-64 (mostly 55-64). “Half” TEST the next day “Half” TEST the next day PS08 14 Slides & 27 Slides 9/12/201530

Download ppt "Ch 3.3 States of Matter Physical Science 08 Lee Ann Youse PS08 14 Slides & 27 Slides This is 3 D. We are doing section 4 before section 3. That is Boyle’s."

Similar presentations

Forces in Fluids p. 92-98.

Forces in Fluids p
Chapter 13 Fluid Pressure.

Chapter 13 Fluid Pressure.
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.

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.
Forces in Fluids Ch. 11.

Forces in Fluids Ch. 11.
The Fluid States Section 13.1 Physics.

The Fluid States Section 13.1 Physics.
Chapter 3: States of Matter

Chapter 3: States of Matter
Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Buoyant Force Buoyant force is the upward force exerted on an object.

Copyright © by Holt, Rinehart and Winston. All rights reserved. ResourcesChapter menu Buoyant Force Buoyant force is the upward force exerted on an object.
Chapter 7 Section 1 Fluids and Pressure

Chapter 7 Section 1 Fluids and Pressure
Chapter 8 Forces in Fluids

Chapter 8 Forces in Fluids
11-1/11-2: Pressure and Floating & Sinking

11-1/11-2: Pressure and Floating & Sinking
Chapter 3 Section 2 Notes. Fluid  Any substance that has the ability to flow (move on its own) Two States ○ ____________  Can flow because their particles.

Chapter 3 Section 2 Notes. Fluid  Any substance that has the ability to flow (move on its own) Two States ○ ____________  Can flow because their particles.
Ch. 13.1. TrueFalseStatementTrueFalse Pressure equals area/ force, and is measured in Pascals Pressure in a fluid increases as depth increases Air pressure.

Ch TrueFalseStatementTrueFalse Pressure equals area/ force, and is measured in Pascals Pressure in a fluid increases as depth increases Air pressure.
Table of Contents Chapter Preview 11.1 Pressure

Table of Contents Chapter Preview 11.1 Pressure
Buoyancy, Density, and Water

Buoyancy, Density, and Water
Properties of Fluids 16.2 How do ships float?

Properties of Fluids 16.2 How do ships float?
Any substance that can change shape or flow easily.

Any substance that can change shape or flow easily.
 What is a fluid?  Fluid – any material than can flow and that takes the shape of its container.  What are some examples?

 What is a fluid?  Fluid – any material than can flow and that takes the shape of its container.  What are some examples?
Chapter 11 Notes Forces in Fluids.

Chapter 11 Notes Forces in Fluids.
Fluids  SWBAT: define and explain examples of pressure, buoyant force, Archimede’s principle and Pascal’s principle.

Fluids  SWBAT: define and explain examples of pressure, buoyant force, Archimede’s principle and Pascal’s principle.
States of Matter 4.3 Behavior of Liquids and Gases 4.3 Behavior of Liquids and Gases.

States of Matter 4.3 Behavior of Liquids and Gases 4.3 Behavior of Liquids and Gases.

Similar presentations

Ads by Google