Physics 101: Lecture 23, Pg 1 Physics 101: Lecture 23 Fluids l Today’s lecture will cover Textbook Sections 11.1-11.5 è Density è Pressure è Pascal’s Principle.

Slides:

Advertisements

Similar presentations

L 13 Fluids [2]: Statics  fluids at rest

Advertisements

Physics 101: Lecture 17, Pg 1 Physics 101: Lecture 17 Fluids Exam III.

Page 1 Phys101 Lectures Fluids I Key points: Pressure and Pascal’s Principle Buoyancy and Archimedes’ Principle Ref: 10-1,2,3,4,5,6,7.

Chapter 14, Section 1 Fluids and Pressure

Pressure. What is Pressure? “Amount of force exerted on an area” Earth’s gravity pulls downward Due to gravity, your feet exert a force on the surface.

UB, Phy101: Chapter 11, Pg 1 Physics 101: Chapter 11 Fluids l Textbook Sections è Density è Pressure è Pascal’s Principle l Textbook Sections.

Jeopardy Jeopardy PHY101 Chapter 4 Review Study of Matter.

Atmospheric Stability Hot air and buoyancy. Outline  Pressure in fluids –Pascal’s principle  Buoyancy –Archimedes’ principle –Density and Temperature.

Pressure and Fluids. What’s the point? What principles govern hydraulic and pneumatic machines? Why do some things float on water?

Prepared By: Shakil Raiman.  Density: Density of a substance is defined as its mass per unit volume.   Unit: kg/m 3, g/cm 3.

Physics 101: Lecture 24, Pg 1 Exam 2 : The average increased from 62 to 66 % !

Lecture 8b – States of Matter Fluid Copyright © 2009 Pearson Education, Inc.

Physics 101: Lecture 23, Pg 1 Physics 101: Lecture 23 Fluids: Gases and Liquids l Today’s lecture will cover Textbook Sections è Density è Pressure.

Fluids Physics 202 Professor Vogel (Professor Carkner’s notes, ed) Lecture 19.

Iceberg off Newfoundland Density,PressureAndBuoyancy.

Pressure in Fluid Systems

Pgs  Calculate the pressure exerted by a fluid.  Explain Pascal’s Principle.  Calculate how pressure varies with depth in a fluid.

Chapter 10: Fluids Three (common) phases of matter: 1. Solid: Maintains shape & size (approx.), even under large forces. 2. Liquid: No fixed shape. Takes.

PRESSURE OF A FLUID Barometer air pressure pressure = height of mercury column.

Chapter 11 Fluids Fluids are materials that can flow, gases and liquids. Air is the most common gas, and moves from place to place as wind. Water is the.

Physics I Chap 15.Fluid Statics Prof. WAN, Xin

Pressure; Pascal’s Principle

Unit 4 Sections A.4-A.6 In which you will learn about:

Physics 215 – Fall 2014Lecture Welcome back to Physics 215 Today’s agenda: Pressure Pressure as a function of depth Forces exerted on and by liquids.

Chapter 10 Fluids. Units of Chapter 10 Phases of Matter Density Pressure in Fluids Atmospheric Pressure and Gauge Pressure Pascal’s Principle Measurement.

L 13 Fluids [2]: Statics  fluids at rest  More on fluids.  How can a steel boat float.  A ship can float in a cup of water!  Today’s weather Today’s.

L 13 Fluids [2]: Statics  fluids at rest  More on fluids at rest  How is atmospheric pressure measured?  Buoyancy: How can a steel boat float?

Chapter 1 The Atmosphere Section 3 Air Pressure. Properties of Matter (Stuff) Mass, Volume, Density, and Pressure All of the matter in the universe has.

Introduction to Fluid Mechanics Engineering 1h Prof Bill Easson.

About Midterm Exam 3 l When and where çThurs April 21 th, 5:45-7:00 pm çRooms: Same as Exam I and II, See course webpage. çYour TA will give a brief review.

L 13 Fluids [2]: Statics  fluids at rest  More on fluids.  How can a steel boat float.  A ship can float in a cup of water!  Today’s weather Today’s.

Calculating pressure Pressure = Force / Area Example – A 1000 N person is standing on 2 feet. The area of the person’s feet is.2 m 2. What is the pressure.

Using the “Clicker” If you have a clicker now, and did not do this last time, please enter your ID in your clicker. First, turn on your clicker by sliding.

Fluids. States of Matter l Solid è Hold Volume è Hold Shape l Liquid è Hold Volume è Adapt Shape l Gas è Adapt Volume è Adapt Shape Fluids 15.

Unit 3: Motion, Forces, & Energy Chapter 11: Motion & Energy Big Idea: If an object is less dense than a fluid, it will float in the fluid. If an object.

Gases Chapter 20. Gases Gases and liquids are both fluids – they are substances that flow. Because of this, the behavior of gases is very similar to the.

13 Fluids density pressure in a fluid buoyancy and archimedes’ principle Fluids in motion Hk: 21, 31, 33, 41, 43, 55.

Stuff that Flows L12- FLUIDS-1 liquids gases

Fluids & Pressure Objectives:

Pressure and Fluids § 15.1–15.5. Density Relating “how big” to “how much” § 15.1.

L 13 Fluids [2]: Statics  fluids at rest  More on fluids.  How can a steel boat float.  A ship can float in a cup of water!  Today’s weather Today’s.

Chapter 11 Fluids Fluids are materials that can flow: gases and liquids. Air is the most common gas, and moves from place to place as wind. Water is the.

L 13 Fluids [2]: Fluid Statics  fluids at rest  More on fluids at rest  How is atmospheric pressure measured?  Buoyancy: How can a steel boat float?

L 13 Fluids - 2 Fluid Statics: fluids at rest

L 13 Fluids [2]: Statics  fluids at rest  More on fluids at rest  How is atmospheric pressure measured?  Today’s weather Today’s weather Today’s weather.

S.N. P ATEL I NSTITUTE O F T ECHNOLOGY & R ESEARCH C ENTRE, U MRAKH Fluid Static and it’s application Guided by : Prof. Nirav Raykundaliya( Assistant.

Phys 101, General Physics I. Reference Book is Fluid Mechanics A fluid is a collection of molecules that are randomly arranged and held together by weak.

Pressure. What is Pressure? Pressure refers to a force exerted on a surface Due to the force of gravity, your feet exert a force on the ground in the.

Lecture 16Purdue University, Physics 2201 Lecture 16 Fluids PHYSICS 220.

Physics 101: Lecture 16, Pg 1 Physics 101: Lecture 16 Fluids Exam 3.

Physics 101: Lecture 17, Pg 1 Physics 101: Lecture 17 Fluids l Today’s lecture will cover Textbook Chapter

Chapter-9 The Behavior of Fluids. Outline 1 Pressure, Hydraulics, and Pascal’s Principle 2 Atmospheric Pressure and the Behavior of Gases 3 Archimedes’

Fluids are substances that can flow. That means liquids and gases can flow so they are fluids.

L 13 Fluids [2]: Statics  fluids at rest

Physics 101: Lecture 17 Fluids

L 13 Fluids [2]: Fluid Statics: fluids at rest

L 13 Fluids [2]: Statics  fluids at rest

Static Fluids Fluid – any substance that takes the form of the container in which it is held. (gases and liquids)

Purdue University, Physics 220

Physics 101: Lecture 16 Fluids

Physics 201 : Lecture 23 Fluids Density Pressure

Bell Ringer Fill in the blanks. (pg. 372)

Chapter 12 Section 1.

Chapter 14, Section 1 Fluids and Pressure

Chapter 14, Section 1 Fluids and Pressure

L 13 Fluids [2]: Statics  fluids at rest

L 13 Fluids [2]: Statics  fluids at rest

Pressure Chapter 11 Section 1.

Presentation transcript:

Physics 101: Lecture 23, Pg 1 Physics 101: Lecture 23 Fluids l Today’s lecture will cover Textbook Sections è Density è Pressure è Pascal’s Principle

Physics 101: Lecture 23, Pg 2 l Density = Mass/Volume è  = M/V è SI unit: [kg/m 3 ] l Densities of some common things (kg/m 3 ) è Water 1000 è ice 917(floats on water) è blood 1060(sinks in water) è lead 11,300 è Copper 8890 è Mercury 13,600 è Aluminum 2700 è Wood 550 è air 1.29 è Helium 0.18 Physics 101: Density

Physics 101: Lecture 23, Pg 3 Pressure Pressure that a fluid or gas exerts on a surface: P = F / A SI unit: [N/m 2 = Pa] F: force acting perpendicular to surface A: Area of surface Atmospheric presure: Pa

Physics 101: Lecture 23, Pg 4 Pressure and Depth Barometer: a way to measure atmospheric pressure p 2 = p 1 +  gh p atm =  gh Measure h, determine p atm example--Mercury  = 13,600 kg/m 3 p atm = 1.05 x 10 5 Pa  h = m = 757 mm = 29.80” (for 1 atm) h p 2 =p atm p 1 =0

Physics 101: Lecture 23, Pg 5 Concept Question Suppose you have a barometer with mercury and a barometer with water. How does the height h water compare with the height h mercury ? 1. h water is much larger than h mercury 2. h water is a little larger than h mercury 3. h water is a little smaller than h mercury 4. h water is much smaller than h mercury CORRECT water is much less dense than mercury, so the same amount of pressure will move the water farther up the column. h p 2 =p atm p 1 =0

Physics 101: Lecture 23, Pg 6 Concept Question Is it possible to stand on the roof of a five story (50 foot) tall house and drink, using a straw, from a glass on the ground? 1. No 2. Yes Even if a person could completely remove all of the air from the straw, the height to which the outside air pressure moves the water up the straw would not be high enough for the person to drink the water. CORRECT

Physics 101: Lecture 23, Pg 7 Concept Question Evacuate the straw by sucking How high will water rise? no more than h = P a /  g = 10.3m = 33.8 feet no matter how hard you suck! h p a p=0

Physics 101: Lecture 23, Pg 8 Summary Density Pressure P 2 = P 1 +  gh Pascal’s Principle