Presentation is loading. Please wait.

Presentation is loading. Please wait.

Understand and Utilize PRESSURE of a Fluid P = Force /Area Expansion and Contraction of matter caused by changes in Temperature Ideal Gas LawPV =nRT Combined.

Published bySophie Cox Modified over 8 years ago

Similar presentations

Presentation on theme: "Understand and Utilize PRESSURE of a Fluid P = Force /Area Expansion and Contraction of matter caused by changes in Temperature Ideal Gas LawPV =nRT Combined."— Presentation transcript:

1 Understand and Utilize PRESSURE of a Fluid P = Force /Area Expansion and Contraction of matter caused by changes in Temperature Ideal Gas LawPV =nRT Combined Gas LawP 1 V 1 /T 1 = P 2 V 2 /T 2 Boyles Law (const T)P 1 V 1 = P 2 V 2 Charles Law (const P)V 1 /T 1 = V 2 /T 2 Utilize PASCAL – BERNOULLI – and ARCHIMEDES Principles

2 Ideal Gases Ideal Gas LawPV =nRT Combined Gas LawP 1 V 1 /T 1 = P 2 V 2 /T 2 Boyles Law (const T)P 1 V 1 = P 2 V 2 Charles Law (const P)V 1 /T 1 = V 2 /T 2

3 Pressure - Area P = Force /Area F 1 * A 2 = F 2 * A 1  Hydraulics

4 When Bad Tanks go Bad Pressure Builds The Boston Molasses Disaster, also known as the Great Molasses Flood and the Great Boston Molasses Tragedy, occurred on January 15, 1919, in the North End neighborhood of Boston, Massachusetts in the United States. A large molasses storage tank burst, and a wave of molasses rushed through the streets at an estimated 35 mph (56 km/h), killing 21 and injuring 150. The event has entered local folklore, and residents claim that on hot summer days, the area still smells of molasses. [1] [1] The collapse unleashed an immense wave of molasses between 8 and 15 ft (2.5 and 4.5 m) high, moving at 35 mph (56 km/h), and exerting a pressure of 2 ton/ft² (200 kPa). [6] The molasses wave was of sufficient force to damage the girders of the adjacent Boston Elevated Railway's Atlantic Avenue structure and tip a railroad car momentarily off the tracks. Nearby, buildings were swept off their foundations and crushed. Several blocks were flooded to a depth of 2 to 3 feet (60 to 90 cm). [6]

5 Pascal and Archimedes Pascal's Principle Pressure is transmitted undiminished in an enclosed static fluid.. Archimedes' Principle Hmm! The crown seems lighter under water!

6 Buoyancy Pressure = F g / A Fluid Pressure = ρ h g F Buoyancy = (ρ Water )(Vol)(g) Equal Volumes Feel Equal Buoyant Forces

7 Bernoulli Equation.

8 LIFT.

Download ppt "Understand and Utilize PRESSURE of a Fluid P = Force /Area Expansion and Contraction of matter caused by changes in Temperature Ideal Gas LawPV =nRT Combined."

Similar presentations

Fluids AP/IB Physics.

Fluids AP/IB Physics.
Properties of Solids and Fluids

Properties of Solids and Fluids
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.
Matter 1. Density: m – mass V – volume Units:

Matter 1. Density: m – mass V – volume Units:
Fluids - Statics Level 1 Physics. Essential Questions and Objectives Essential Questions What are the physical properties of fluid states of matter? What.

Fluids - Statics Level 1 Physics. Essential Questions and Objectives Essential Questions What are the physical properties of fluid states of matter? What.
The kinetic theory of matter can be used To explain how molecules move.

The kinetic theory of matter can be used To explain how molecules move.
BELLRINGER YOU HAVE 7 MINUTES LEFT! 1. What would be the density of a 9.0g sample of a substance that has a volume of 89 mL? Will this substance sink.

BELLRINGER YOU HAVE 7 MINUTES LEFT! 1. What would be the density of a 9.0g sample of a substance that has a volume of 89 mL? Will this substance sink.
PHYS16 – Lecture 32 Ch. 14 Fluid Mechanics.

PHYS16 – Lecture 32 Ch. 14 Fluid Mechanics.
Fluids Physics 202 Professor Vogel (Professor Carkner’s notes, ed) Lecture 19.

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

Buoyancy, Density, and Water
Fluids. Flow Take shape of container Liquids or gases Exert pressure Pressure = force / area Fluids

Fluids. Flow Take shape of container Liquids or gases Exert pressure Pressure = force / area Fluids
Lecture Outline Chapter 9 College Physics, 7 th Edition Wilson / Buffa / Lou © 2010 Pearson Education, Inc.

Lecture Outline Chapter 9 College Physics, 7 th Edition Wilson / Buffa / Lou © 2010 Pearson Education, Inc.
Chapter 15 Fluid Mechanics. Density Example Find the density of an 4g mass with a volume of 2cm 3.

Chapter 15 Fluid Mechanics. Density Example Find the density of an 4g mass with a volume of 2cm 3.
Liquids Liquids Pressure = Force/Area Pressure = Force/Area Pressure Liquid = Weight Density x Depth Pressure Liquid = Weight Density x Depth 1 Liter.

Liquids Liquids Pressure = Force/Area Pressure = Force/Area Pressure Liquid = Weight Density x Depth Pressure Liquid = Weight Density x Depth 1 Liter.
Fluid Forces Mrs. Clarici

Fluid Forces Mrs. Clarici
Ch. 11 Forces in Fluids. Pressure Pressure-force per unit area on a surface Unit of measurement: pascal (Pa): 1 N/m 2 A fluid is any substance that can.

Ch. 11 Forces in Fluids. Pressure Pressure-force per unit area on a surface Unit of measurement: pascal (Pa): 1 N/m 2 A fluid is any substance that can.
50.00 g of a solid at 25.00 o C is placed in 250.00 g of its liquid in a 500.00 g can at 77.00 o C. The temp. equilibrates at 27.00 o C. Calculate: H f.

50.00 g of a solid at o C is placed in g of its liquid in a g can at o C. The temp. equilibrates at o C. Calculate: H f.
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.
Go with the Flow How Dense are you? Floaty Force Under Pressure Famous People Hodge Podge 100 200 300 400 500.

Go with the Flow How Dense are you? Floaty Force Under Pressure Famous People Hodge Podge

Similar presentations

Ads by Google