Density & Buoyancy Physical Characteristics of an Object.

Slides:

Advertisements

Similar presentations

Density is… the amount of matter in a given area.

Advertisements

Chapter 17 Review Properties of Matter.

Chapter 14 Buoyancy.

Chapter 3: Forces & Fluids Review. How can you change the pressure on the ground when you are standing?  Stand on one foot (decrease area)  Change into.

Chapter 14 Preview Section 1 Fluids and Pressure

Chapter 11 – Forces in Fluids

Lect 4: Buoyancy & Density What is buoyancy? What is the relationship between density & buoyancy?

The tendency or ability of an object to float.

Buoyancy Properties of Matter.

Chapter 3 Section 2 Buoyancy and Density

Forces In Fluids Chapter 3 Section 2 - Floating and Sinking

Density and Buoyancy.

Buoyancy, Density, and Water

* Pressure refers to a force pushing on a surface * Force and pressure are closely related, but are not the same thing * Pressure deals with force and.

Chapter 14 Preview Section 1 Fluids and Pressure

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.”

Buoyancy and Density 14-2 Buoyant Force Buoyant force = upward force that keeps an object immersed in or floating on a liquid It ’ s the force that pushes.

Bernoulli’s, Pascal’s, & Archimedes’ Principles Principles of Fluids.

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.”

Floating and Sinking.  Density is a measure of how closely packed the atoms in a substance are  Density is a physical property  All matter has measurable.

Density Density is a comparison of how much matter there is in a certain amount of space. Which square is more dense?

Fluid Mechanics Chapter 8. Mass Density The concentration of matter of an object, measured as the mass per unit volume of a substance. Represented by.

Fluids 101 Chapter 10. Fluids Any material that flows and offers little resistance to changing its shape. –Liquids –Gases –Plasma?

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

Floating and Sinking. Buoyancy When you pick up an object underwater it seems much lighter due to the upward force that water and other fluids exert known.

Density is the amount of mass in a specific volume cm 3.

Properties of Fluids 16-2.

Lesson 4 January 25 th – 26 th, Mass Mass is the amount of matter in a object Related to weight but not quite the same. The Honda 599 seen in the.

DENSITY & BUOYANCY. BUOYANCY BUOYANCY = the ability to float in a fluid. Examples of fluids = water, air BUOYANT FORCE = the upward force that acts on.

Liquids Definite volume but no definite shape!. Liquids Pressure Buoyancy Archimedes’ Principle Density Effects Pascal’s Principle.

Density and Buoyancy Review 1-20 study notes. 1. Density =

Liquids -They always take the shape of their container -They flow or you can pour them.

Chapter 10.4 Learning Goals

Chapter 4.2 Physical Science

1 Bell Ringer What word should we think of when we think of pressure? 2. What is the formula for pressure? 3. What SI unit measures pressure?

Floating and Sinking Whatever floats your boat!. Warm-up 1. Observe the two beakers on the front table and record your observations. 2. Predict- will.

BUOYANT FORCE What makes objects float?

Density. What is density and how is it measured? Density.

PRESSURE & BUOYANCY Ch 11. I. PRESSURE A.The force exerted on a surface divided by the area over which the force is exerted. B.Pressure = Force = Newton’s.

Pressure and Density Jeopardy Review Pressure Fluid Pressure Vocab Density and Buoyancy 1 Density and Buoyancy 2 $100 $200 $300 $400 $500 $400 $300 $100.

CST Review Session 6 Density Floating and Sinking Bouyancy.

Chapter 11, Section 2 Floating and Sinking. What is Density? A comparison of how much matter there is in a certain amount of space (solids, liquids, gases)

AND THEIR FORCES Fluids. Matter that can flow is called a fluid. “Fluid” does not mean the same thing as “liquid.” Both liquids and gases are called fluids.

Chapter 11 – Forces in Fluids. Pressure The amount of pressure you exert depends on the area over which you exert force. Pressure is equal to the force.

1. According to Archimedes principle, what happens to the buoyant force of an object that floats in water? Increases upward 2. If you displaced 200N of.

Chapter 9 Forces influence the motion and properties of fluids.

Chapter 3 Review Study Guide.

Lots of slides, but little writing…

Buoyancy, Density, and Water

Chapter 14, Section 2 Buoyant Force

Chapter 12 Section 2.

Class Notes: Buoyancy & Density

Unit 2 Floating and Sinking.

Section 2 – pg 424 Floating and Sinking

Chapter Menu Lesson 1: Density

Sci. 3-2 Buoyant Force Pages

Chapter 19: Liquids.

3.2 Pressure and the Buoyant Force

Floating and Sinking Chapter 11 Section 2.

Chapter 14, Section 2 Buoyant Force

Chapter 12 Section 2.

Whatever floats your boat!

What is buoyancy? What is the relationship between density & buoyancy?

A closer look at the physical property of Density

Properties of Fluids.

Lect 4: Buoyancy & Density

Presentation transcript:

Density & Buoyancy Physical Characteristics of an Object

Characteristics A special quality or feature that someone or something has, and that makes that person or thing different from others Feature, quality, property, and attribute (all have similar meanings)

Volume The amount of space an object contains or a substance fills up Volume of a regular solid  V = l * w * h orE 1 * E 2 * E 3 Volume of an irregular solid  The measure of the displacement of liquid

Volume of Irregular Solids

Volume (Units) The unit for solid volume is cm 3 The unit for liquid volume is ml 1 cm 3 is equal to 1 ml

Volume (Units)

Mass The amount of stuff in an object The unit for mass is the gram (g) We measure mass on a scale

Density A measure of the amount of matter present in a given volume of a substance The measure of the amount of stuff in the space that an object takes up The more packed something is the greater its density

Density (Equation) Density = Mass/Volume The unit of density is g/cm 3 or g/ml

Pressure in Fluids A measure of how much force is acting on a certain area The unit of pressure is a pascal (Pa) and is equal to a N/m 2 A fluid is a liquid or a gas, not just a liquid

Pressure in Fluids Pressure in fluids happens in all directions Think about being in a pool The water surrounds you and pushes in on every side of you This is identical to being in air, the air pushes on every surface of your body

Pressure and Density Denser fluids have more mass, but how does that effect pressure This means that they have more stuff and therefore more pressure The denser the fluid, the more pressure it exerts

Pressure and Depth Pressure increase with depth in the fluid The deeper you are in the air or water, the greater the pressure This is because the weight of the column above you increases

Buoyant Force The upward force a fluid exerts on an object in the fluid This force is exerted on objects that sink and float When an object sinks, it is because its downward force is greater than the buoyant force

Buoyant Force Air or any other gas, is also a fluid and exerts a buoyant force The size of the buoyant force equals the weight of the displaced fluid

Archimedes’ Principle A Greek scientist discovered a connection between the amount of water displaced and the buoyant force He found that the buoyant force equals the weight of the displaced water

Buoyant Force & Density The strength of the buoyant force depends on the density of the fluid This is because the volume of the object would displace the same amount of fluid A denser fluid would weigh more

Floating and Sinking To determine if an object will float or sink you need to know two things: its weight and the buoyant force in the fluid you are going to place it in The greater force wins