Fluids at Rest: Pressure

Slides:



Advertisements
Similar presentations
Mass density ρ is the mass m divided by the volume v. ρ = m/v kg/m 3.
Advertisements

Chapter 14 Fluid Mechanics.
Liquids.
Static Fluids Fluids are substances, such as liquids and gases, that have no rigidity. A fluid lacks a fixed shape and assumes the shape of its container.
Fluids - Statics Level 1 Physics. Essential Questions and Objectives Essential Questions What are the physical properties of fluid states of matter? What.
AP Physics II.A – Fluid Mechanics.
R. Field 4/21/2013 University of Florida PHY 2053Page 1 Final Exam: 4/27/13 12:30pm-2:30pm Last NameRoom A-GTUR L007 H-KTUR L005 L-MTUR L011 N-RWEIL 270.
Lecture 8b – States of Matter Fluid Copyright © 2009 Pearson Education, Inc.
Liquids.
Chapter 14: Fluid mechanics
Hydrostatics Fluids at Rest.
Chapter 14 Fluids Key contents Description of fluids
Iceberg off Newfoundland Density,PressureAndBuoyancy.
Conceptual Physics 11th Edition
Static Fluids Fluids are substances, such as liquids and gases, that have no rigidity. A fluid lacks a fixed shape and assumes the shape of its container.
Simple U-TUBE Manometer
PRESSURE OF A FLUID Barometer air pressure pressure = height of mercury column.
AP Physics II.A – Fluid Mechanics.
Chapter 14 PHYSICS 2048C Fluids. What Is a Fluid?  A fluid, in contrast to a solid, is a substance that can flow.  Fluids conform to the boundaries.
Warm-up Pick up the free response at the door and begin working on it.
Static Fluids.
Pressure; Pascal’s Principle
Density. Density Densities of some common materials Substance Density (kg/m3) Aluminum 2700 Bone Water 1000 Ice 920 Saltwater 1025 Blood.
Chapter 15 Fluid Mechanics.
Chapter 10 Fluids. Units of Chapter 10 Phases of Matter Density Pressure in Fluids Atmospheric Pressure and Gauge Pressure Pascal’s Principle Measurement.
Liquids Liquids Pressure = Force/Area Pressure = Force/Area Pressure Liquid = Weight Density x Depth Pressure Liquid = Weight Density x Depth 1 Liter.
A fluid is a state of matter in which the particles are free to move around one another. No definite shape exists. The term “fluid” encompasses liquids.
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.
Fluids.
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?
Solids and Fluids Chapter 9. Phases of Matter  Solid – definite shape and volume  Liquid – definite volume but assumes the shape of its container 
Monday, Nov. 17, 2003PHYS , Fall 2003 Dr. Jaehoon Yu 1 PHYS 1443 – Section 003 Lecture #20 Monday, Nov. 17, 2003 Dr. Jaehoon Yu 1.Density and Specific.
Chapter 14 Fluids What is a Fluid? A fluid, in contrast to a solid, is a substance that can flow. Fluids conform to the boundaries of any container.
Fluids Unlike a solid, a fluid can flow. Fluids conform to the shape of the container in which it is put. Liquids are fluids the volume of which does not.
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.
Density Densities of some common materials SubstanceDensity (kg/m 3 ) Aluminum2700 Bone Water1000 Ice920 Saltwater1025 Blood1050 Gasoline
Fluid Statics Why do your ears hurt when you dive deep into a pool, and how can steel float on water?
Chapter 9 Fluid Mechanics. Fluids “A nonsolid state of matter in which the atoms or molecules are free to move past each other, as in a gas or liquid.”
Density and Buoyancy. Float? Whether an object will float or not is dependent on the density of the object and the density of the fluid.
Unit 6 : Part 1 Fluids.
Liquids Definite volume but no definite shape!. Liquids Pressure Buoyancy Archimedes’ Principle Density Effects Pascal’s Principle.
Chapter 14 Fluids.
Liquids -They always take the shape of their container -They flow or you can pour them.
Chapter 13: Fluid Mechanics
CONCEPTUAL PHYSICS Liquids.
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.
Fluid Mechanics Chapter 8. Fluids Ability to flow Ability to change shape Both liquids and gases Only liquids have definite volume.
Physics Chapter 9: Fluid Mechanics. Fluids  Fluids  Definition - Materials that Flow  Liquids  Definite Volume  Non-Compressible  Gasses  No Definite.
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.
Ying Yi PhD Chapter 11 Fluids 1 PHYS HCC. Outline PHYS HCC 2 Density and Pressure Pressure and Depth in a Static fluid Buoyant Forces and Archimedes’
Chapter 10 Fluids Pressure in Fluids Pressure is defined as the force per unit area. Pressure is a scalar; the units of pressure in the SI system.
Phys 250 Ch10 p1 Chapter 10: Fluids Fluids: substances which flow Liquids: take the shape of their container but have a definite volume Gases: take the.
Fluids are substances that can flow. That means liquids and gases can flow so they are fluids.
Lecture 14.1 Fluids. Does lead float? Schedule today Fluid Statics Density Pascal's Principle Archimedes Principle Exam Solutions Curve.
L 13 Fluids [2]: Statics  fluids at rest
L 13 Fluids [2]: Fluid Statics: fluids at rest
Chapter 11 Fluids.
Fluid Mechanics Presentation on FLUID STATICS BY Group:
Chapter 14 Fluids.
Physics 21.
3.2 Pressure and the Buoyant Force
Density and Buoyant Force
Chapter 13: Fluid Mechanics
Chapter 14 Fluid Mechanics.
Chapter 14 PHYSICS 2048C Fluids.
Chapter 14 PHYSICS 2048C Fluids.
Presentation transcript:

Fluids at Rest: Pressure Pressure is the Force per unit Area: (definition of pressure) (uniform force on flat area) 1 Pa = 1 N/m2 Standard Atmospheric Pressure: 1 atm = 1.013× 105 N/m2 = 1.013×105 Pa = 14.7 lb/in2 Gauge Pressure: Equal to the absolute pressure minus 1 atm. Pressure in a Fluid at Rest (density r): (pressure at depth y) R. Field 10/24/2013 University of Florida PHY 2053

Pascal’s and Archimedes’ Principles Pascal’s Principle: Pressure applied to an enclosed fluid is transmitted undiminished to all parts of the fluid and to the walls of the container. Archimedes’ Principle: Any body, wholly or partially submerged in a fluid, is buoyed up by a force equal to the weight, Mfg, of the displaced fluid. R. Field 10/24/2013 University of Florida PHY 2053

Fluids at Rest: Example A hollow spherical iron shell floats almost completely submerged in water (i.e. just touching the surface). If the density of iron is a factor f greater than the density of water (i.e. riron = f × rwater) and if the outer radius of the iron shell is R2, what is the inner radius R1? R. Field 10/24/2013 University of Florida PHY 2053

Fluids at Rest: Examples The U-tube shown in the figure contains a liguid of density r. What is the pressure difference DP = PA - PB? Manometer The U-tube shown in the figure contains two liquids in static equilibrium: Water of density rW is in the right arm, and an oil of unknown density rX is in the left arm. What is the density of the unknown oil in terms of d and L? R. Field 10/24/2013 University of Florida PHY 2053

Exam 2 Fall 2011: Problem 36 Two small balls are simultaneously released from rest in a deep pool of water (with density rwater). The first ball is reseased from rest at the surface of the pool and has a density three times the density of water (i.e. r1 = 3rwater). A second ball of unknown density is released from rest at the bottom of the pool. If it takes the second ball the same amount of time to reach the surface of the pool as it takes for the first ball to reach the bottom of the pool, what is the density of the second ball? Neglect hydrodynamic drag forces. Answer: 3rwater/5 % Right: 22% R. Field 10/24/2013 University of Florida PHY 2053

Exam 2 Spring 12: Problem 46 What is the minimum radius (in m) that a spherical helium balloon must have in order to lift a total mass of m = 10-kg (including the mass of the empty balloon) off the ground? The density of helium and the air are, rHE = 0.18 kg/m3 and rair = 1.2 kg/m3, respectively. Answer: 1.33 % Right: 37% R. Field 10/24/2013 University of Florida PHY 2053