Presentation is loading. Please wait.

Presentation is loading. Please wait.

Fluid Statics.

Published byMuriel Shields Modified over 8 years ago

Similar presentations

Presentation on theme: "Fluid Statics."— Presentation transcript:

1 Fluid Statics

2 Outline Basic Equation Change of Pressure in a Non-vertical Direction
Pressure-Depth Relationships Pressure Forces Buoyancy Pressure Measurement

3 Variable Gravity Rigid Body Motions Thin Walled Pressure Vessels
Outline (Continued) Variable Gravity Rigid Body Motions Thin Walled Pressure Vessels

4 Objectives Apply principles of fluid statics to identify, formulate, and solve engineering problems, which involve fluid statics. Calculate pressure distribution. Calculate pressure forces.

5 Objectives (Continued)
Calculate buoyancy force, and use it to solve buoyancy problems. Know pressure-measurement devices. Solve rigid-body motion problems. Determine the required thickness for thin-walled pressure vessels.

6 Summary Assumptions: fluid at rest and no shear stresses.
Basic equation Pressure-depth relationships are derived in the cases of constant density, ideal gas at constant temperature, and isentropic atmosphere.

7 Summary (Continued) Pressure force on a horizontal surface F = P A
Pressure force on a vertical surface Pressure force on an inclined or curved surface

8 Summary (Continued) Archimede’s principle: the buoyant force is exactly equal to the weight of displaced fluids. A floating body displaces a volume of fluid whose weight is equal to its own. Pressure measurement devices include the simple manometer, the two-fluid manometer, the mercury barometer, the piston and spring pressure gauge, the Bourdon tube and the diaphragm gauge.

9 Summary (Continued) Rigid-body motion Rigid-body rotation
For thin-walled pressure vessels Standards add safety factors (see handout). In addition a corrosion allowance is needed.

Download ppt "Fluid Statics."

Similar presentations

Copyright © 2014 John Wiley & Sons, Inc. All rights reserved.

Copyright © 2014 John Wiley & Sons, Inc. All rights reserved.
Liquids and Gasses Matter that “Flows”

Liquids and Gasses Matter that “Flows”
Chapter 14 Fluid Mechanics.

Chapter 14 Fluid Mechanics.
Fluids Mechanics Carlos Silva December 2 nd 2009.

Fluids Mechanics Carlos Silva December 2 nd 2009.
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.

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.
Water Pressure and Pressure Forces

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

Lecture 8b – States of Matter Fluid Copyright © 2009 Pearson Education, Inc.
CHAPTER-14 Fluids. Ch 14-2, 3 Fluid Density and Pressure  Fluid: a substance that can flow  Density  of a fluid having a mass m and a volume V is given.

CHAPTER-14 Fluids. Ch 14-2, 3 Fluid Density and Pressure  Fluid: a substance that can flow  Density  of a fluid having a mass m and a volume V is given.
Water Pressure and Pressure Force (Revision)

Water Pressure and Pressure Force (Revision)
Fluid Mechanics Fluid Statics. Pressure field Pressure is a scalar field: p = p(x; y; z; t) The value of p varies in space, but p is not associated with.

Fluid Mechanics Fluid Statics. Pressure field Pressure is a scalar field: p = p(x; y; z; t) The value of p varies in space, but p is not associated with.
Chapter 15 Fluids.

Chapter 15 Fluids.
Chapter 14 Fluids Key contents Description of fluids

Chapter 14 Fluids Key contents Description of fluids
Chapter 9 Solids and Fluids. Solids Has definite volume Has definite volume Has definite shape Has definite shape Molecules are held in specific locations.

Chapter 9 Solids and Fluids. Solids Has definite volume Has definite volume Has definite shape Has definite shape Molecules are held in specific locations.
1 MECH 221 FLUID MECHANICS (Fall 06/07) Chapter 2: FLUID STATICS Instructor: Professor C. T. HSU.

1 MECH 221 FLUID MECHANICS (Fall 06/07) Chapter 2: FLUID STATICS Instructor: Professor C. T. HSU.
Fluid mechanics 3.1 – key points

Fluid mechanics 3.1 – key points
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.

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.
Hydrostatic Pressure distribution in a static fluid and its effects on solid surfaces and on floating and submerged bodies. Fluid Statics M. Bahrami ENSC.

Hydrostatic Pressure distribution in a static fluid and its effects on solid surfaces and on floating and submerged bodies. Fluid Statics M. Bahrami ENSC.
Fluid Statics.

Fluid Statics.
Introduction to Fluid Mechanics

Introduction to 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.

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.

Similar presentations

Ads by Google