The density is the ratio of mass (stuff that makes up an object) and its volume (the amount of space that stuff takes up). The more mass an object has.

Slides:

Advertisements

Similar presentations

Notebook p 29 Three Ways To Determine Density. 1) Regular Objects 1.Measure the each side of the block in centimeters. Calculate volume in cm³: multiply.

Advertisements

Unit 1 Lesson 1 Introduction to Matter

Objective: To calculate density.. - Volume of a cube or block = length x width x height - Volume of irregular shaped object = use water displacement.

How to Calculate Density

Density. Which do you think would have the greater mass? Greater volume? Why?  1 kg of feathers  1 kg of rock  Same mass!  Larger volume  Same mass!

Measuring Metric Length

Introduction to Matter

Introduction to Matter

Density All substances have different densities, therefore, you can identify a substance if you know its density The formula to calculate something’s density.

Hosted by Mrs. Sowa Density Equation Graphs Matter Models Measuring m and V

Density Density describes how heavy an object is compared to its size.

PHYSICAL SCIENCE © Copyright All rights reserved.

DENSITY. DEFNITION DENSITY: The mass of a substance per unit of volume In simple terms…How much “stuff” is in a certain amount of space Weight/amt of.

Density Formula: Density = Mass ÷ Volume Standard Unit =

 Density is a measure of how much matter (objects that take up space) is compacted in an area.  What is the formula? Density = mass OR mass ÷ volume.

Bell Ringer O Convert the following measurement: 130 g = _______________mg.

Density. Definition Density: The amount of matter in a certain volume. (How much matter is in a given amount of space.) Example: Each of the spheres in.

Density. Different substances have different densities. The density of a material does not depend on the size or amount of the substance you have. Density.

Density Sink or Float???.

Measurement Quiz Review. What is the term for the amount of space an object occupies? VOLUME.

1. Which is more dense, water or wood? How do you know? 2. Which is more dense, 1 pound of lead or 100 pounds of lead? Wood, if it sinks in water. SAME!

Properties of Matter Mass Volume Density.

WU 9/7 1.How many sig. figs are in these measurements? a) g b L c mg d e s 2.Perform the following calculations:

Physical versus Chemical Properties Unit II - Part 1 The study of matter.

Density. Matter: anything that has mass and takes up space –Mass – the amount of matter in something –Volume – the amount of space something occupies.

Density. The two things we need for density are mass and volume Balance is used to measure mass Balance is used to measure mass Read each rider and add.

Chapter 1 – Section 2 p Measuring Matter. I. Weight – a measure of the force of gravity A. Changes if you go to the moon or another planet since.

 A. Matter 1.Definition: anything that has mass and volume. 2. Characteristic properties (such as density, melting point, boiling point) can be used.

What makes an ice cubes float in water ? Write your response in two sentences.

Matter Chapter Twelve: The Physical Properties of Matter 12.1 Density 12.2 Buoyancy 12.3 Properties of Materials.

Density is defined as mass per unit volume. It is a measure of how tightly packed and how heavy the molecules are in an object. Density is the amount of.

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.

Mass, Temperature and Density Review. What is the definition of volume? The amount of space an object takes up. What is the name of the instrument used.

Bellwork What does it mean when someone says so-and-so “is dense”

Volume The amount of space an object takes up. 3 ways to measure volume Liquid Volume –Graduated cylinder mL Volume of a Regular Solid –Length x Width.

Density. Density = mass/volume D = M/V  Density is the mass per unit volume of a substance.  How much material is packed into a given space.  Everything.

DENSITY NOTES Mass – the measure (amount) of matter in an object. Units – grams (g)

Mass, Volume, & Density.

(c) McGraw Hill Ryerson Fluids and Density A fluid is any form of matter that can flow.  Liquids and gases are fluids since they do not have.

DENSITY Mark Place,

Unit 1 Lesson 1 Introduction to Matter

DENSITY And BUOYANCY.

DENSITY Density is defined as mass per unit volume. It is a measure of how tightly packed and how heavy the molecules are in an object. Density is the.

Density What is density?

Measuring Matter 2.2 Weight and Mass

Density is mass per unit volume.

Unit 1 Lesson 1 Introduction to Matter

Density- notes page 21 Essential Question: How do we explain density?

Activity #21 DENSITY.

Density- Cornell notes page 21

Density Think back to our definition of matter (anything that has mass and takes up space). What is another word for how much space something takes up?

Properties of Matter.

Density Think back to our definition of matter (anything that has mass and takes up space). What is another word for how much space something takes up?

Determining if an object will float or sink

Density -density is the amount of stuff in a given volume; it is symbolized as ρ -it is mass per volume; note that units can be virtually any mass or volume.

A fluid is any form of matter that can flow.

Measuring Notes ｷThe units used for mass are grams (g).

Unit 1 Lesson 1 Introduction to Matter

A fluid is any form of matter that can flow.

A closer look at the physical property of Density

Presentation transcript:

The density is the ratio of mass (stuff that makes up an object) and its volume (the amount of space that stuff takes up). The more mass an object has in a give amount of space, the more dense it is. To say it another way, the more con”densed” the matter is, the more dense it is!

m2m2 m2m2 Which is more dense?

Density can be calculated using the following formula: Whereas, D = M = V = D = MVMV mass volume density M D V

M D V Density = MVMV Volume = MDMD Mass = D x V

Example: A wooden block with a mass of 80.0 g is 8 cm long, 3 cm wide, and 4 cm high. Calculate the wooden block’s density. Length = Width = Height = 8.0 cm 3.0 cm 4.0 cm 8.0 cm 3.0 cm 4.0 cm Volume = L x W x H Volume = 8.0 cm x 3.0 cm x 4.0 cm = 96.0 cm 3

Mass = Volume = Density = 80.0 g 96.0 cm g 96.0 cm g/cm g/cm 3 10 th space

Step 2 Wait for all of the water to flow out of the overflow can into the beaker positioned below the spout. Step 3 Take the water in the beaker and pour it into the graduated cylinder. Be sure not to spill any! Step 4 Read the volume of the water in the graduated cylinder. This should equal the volume of the mineral originally placed in the overflow can. Determining the volume of an irregular object Step 1 Place the object in the overflow can. Overflow Can

Does changing the size of a pure substance change its density? Density = 16 s per 8 sDensity = 2 s per

Does changing the size of a pure substance change its density? Density = 8 s per 4 sDensity = 2 s per

Does changing the size of a pure substance change its density? Density = 4 s per 2 sDensity = 2 s per

What happens to the density of a material when you break it into pieces? D = m/v M = 2,000 g V = 1,000 mL D = ? g/mL

D = m/v M = 2,000 g V = 1,000 mL D = ? g/mL

Answer: The density does not change !!! M = 24 g V = 12 mL D = ___ g/mL M = 14 g V = 7 mL D = ___ g/mL M = 10 g V = 5 mL D = ___ g/mL

What happens to the density, volume and mass of most materials when you heat them? D = m/v M = 10 g V = 1 mL D = ____ g/mL D = m/v M = 10 g V = 1 mL D = ____ g/mL

D = m/v M = 10 g V = 1 mL D = ____ g/mL D = m/v M = 10 g V = 2 mL D = ____ g/mL

D = m/v M = 10 g V = 1 mL D = ____ g/mL D = m/v M = 10 g V = 3 mL D = ____ g/mL

D = m/v M = 10 g V = 1 mL D = ____ g/mL D = m/v M = 10 g V = 5 mL D = ____ g/mL → No change → Increases → Decreases

An object will sink in a fluid with a lower density and float in a fluid with a greater density.

0.8 g/mL 1.0 g/mL 1.5 g/mL 2.0 g/mL D= 2.5 g/mL D= 0.75 g/mL D = 1.0 g/mL D= 1.8 g/mL

D = 1.0 g/mL D = 0.9 g/mL D = 0.2 g/mL

Finding the Percentage BELOW the Surface Step 1 Divide the density of the object by the density of the fluid it is floating in. Ex. Ice = 0.92 g/mL Water = 1.0 g/ml Step 2 Multiply your answer from Step 1 by 100. This equals the percent found BELOW the surface. Ex x 100 = 92% This means 92 percent of an ice cube is found below the surface of water.

8.0 % Above 92.0 % Below If the density of ice is 92% of the density of water, than 92% is found BELOW the surface. How much is found above? Water Ice

Try this example! An object with a density of 1.3 g/mL is placed in a cup of pure water (density of water is 1.0 g/mL). What percentage of the object is found below the surface?