Mr. Gibson – All Science classes Fall 2011 Wednesday 31-August.

Slides:

Advertisements

Similar presentations

Advertisements

Weight, Mass, Volume and Density

OR, WHY DO SOME THINGS FLOAT WHILE OTHERS SINK.

Density is a physical characteristic of every substance Density is the mass of unit volume What Is Density?

Which weighs more, a pound of feathers, or a pound of bricks?

Density Density is a _________ property of matter.

What Is Density? (contd.)

Unit 1 Lesson 1 Introduction to Matter

Reason 1: helps scientists share and compare their data/ results

Volume of Rectangular Solids

Measuring Matter Chapter 2 Section 2.

Density If density is a measure of how tightly the matter within an object is packed together which of the cubes above has the greatest density?

Density of an Irregular Solid Object

What Does it Matter.

Properties of Matter.

Volume, Mass & Density.

The Nature of Matter Benchmark SC.A The student determines that the properties of materials (e.g., density and volume) can be compared and measured.

Introduction to Matter

Introduction to Matter

DENSITY Grade 8 Science.

+ Conversions and Calculating Scientific Data. + The Metric System Scientists us the metric system to measure and calculate scientific data The metric.

Density Chapter 3 Scientific Measurements. I CAN I CAN define DENSITY and explain how it is calculated and determine the volume both a regular object.

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

PHYSICAL SCIENCE © Copyright All rights reserved.

1) Everything is made of matter. 2) The amount of matter we have is called mass. 3) The space that matter takes up is called volume. 4) The amount of matter.

Volume, Mass, and Density Matter is anything that has mass and takes up space. Mass is a measure of how much matter is in an object. Mass can be expressed.

Measurement-A Common Language Volume Aim:How can we calculate the volume of an object? Do now: Read the passage and answer the question: A student want.

Notes on mass, volume & density. Weight Weight: A measure of the force of gravity on an object. Weight: A measure of the force of gravity on an object.

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.

Measuring Length.

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

Hydrostatics Lesson 6 © nitatravels. Fluids are Everywhere  Liquids or Gasses  Air is a fluid!!!  Typically take the shape of their container.

Metric Standards and Measurement Tools. Length Distance from one point to another Unit – meter (m) Tool – meterstick or metric ruler.

Back to menu Measurement and Density Unit Test Review Measurement and Density Review.

Measurin g Matter. Weight and Mass A. Weight  Weight – measure of the force of gravity on an object B. Mass  Mass – measurement of the amount of matter.

What is Density?. Density is… The ratio of the MASS of a substance to it’s VOLUME.

Chapter 10.4 Learning Goals

Density. What is Density?  Density is the amount of matter in a substance divided by the amount of space it has. Another way to say this is that Density.

Matter  Definition - anything that has mass and takes up space ex. everything Everything around you is matter… even things you do not see like air.

Density D = M / V What is Density? Density – the amount of matter (mass) in an object per unit of volume In other words: How much stuff is packed.

DENSITY. The amount of mass per unit of volume Items with low density: feathers, marshmallows, pillows, etc. Items with high density: rock, most metals,

FINDING VOLUME. VOLUME Measurement of the amount of space that the object takes up. Objects are 3D meaning they have three dimensions, so volume must.

 Weight: a measure of the force of gravity on you.  On earth, all objects are attracted toward the center of the planet by the force of earth’s gravity.

Unit 1 Lesson 1 Introduction to Matter Copyright © Houghton Mifflin Harcourt Publishing Company.

Measurement-A Common Language Volume The amount of space matter can occupy. OR The amount of matter an object can contain.

Which do you think would have the greater volume and mass? Why? 1 kg of feathers1 kg of rock.

INTRODUCTION OF MATTER

Unit 1 Lesson 1 Introduction to Matter

Independent or Dependent?

Density is mass per unit volume.

Unit 1 Lesson 1 Introduction to Matter

Properties of Fluids.

Activity #21 DENSITY.

Chapter 12 Section 2.

MATTER VOCABULARY WATCH, READ, LEARN.

Properties of Matter.

Which do you think would have the greater volume and mass? Why?

Measurement-A Common Language

Unit 1 Lesson 1 Introduction to Matter

Weight, Mass, Volume and Density

Weight, Mass, Volume and Density

Chapter 12 Section 2.

Properties of matter Objects: *Describe the two properties of matter

Today’s Agenda… 8-17 Bellringer: (Remember to write the question) What kind of units do we use to make measurements in science? Practice Measuring Length.

Presentation transcript:

Mr. Gibson – All Science classes Fall 2011 Wednesday 31-August

Matter, Mass, Volume, Weight, Density & the “gram” First – what is the difference between the terms “matter” And “mass”? How do we simply define each?

Matter, Mass, Volume, Weight, Density & the “gram” First – what is the difference between the terms “matter” And “mass”? How do we simply define each? Matter can be roughly defined as “what it is…”; Mass can roughly be defined as “how much of it there is…”

A more formal definition of Matter is: anything that has mass and takes up space. And; a more formal definition of Mass is: a measure of the amount of matter. Matter, Mass, Volume, Weight, Density & the “gram” First – what is the difference between the terms “matter” And “mass”? How do we simply define each?

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by volume? And; how do we calculate it?

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by volume? And; how do we calculate it? Volume can be defined is the amount of space matter takes up. As far as how you measure it can be easy or quite awkward depending upon its form or shape.

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by volume? And; how do we calculate it? If the matter’s volume is a cube, boxy or rectangular... We measure its length, width, and depth; then multiplying them we get is “cubic” volume.

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by volume? And; how do we calculate it? Given a “box” or “cube”... Let’s try a little exercise in class now… We measure its length, width, and depth; then multiplying them we get is “cubic” volume.

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by volume? And; how do we calculate it? If the matter’s volume is an irregular or odd shape it can still be done rather easily, but we need to discuss water and how it is used in science first...

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by volume? And; how do we calculate it? Water, in its liquid state at “room” or “ambient” temperature (approximately 24.8 degrees centigrade) takes up a certain (given) volume.

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by volume? And; how do we calculate it? Water, in its liquid state at “room” or “ambient” temperature (approximately 24.8 degrees centigrade) takes up a certain (given) volume. It would fully occupy a very small “box” or “cube” that is EXACTLY one centimeter on a side –or- one cubic centimeter.

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by volume? And; how do we calculate it? Water, in its liquid state at “room” or “ambient” temperature (approximately 24.8 degrees centigrade) takes up a certain (given) volume. This cubic centimeter of water is the definition of ONE GRAM (of weight).

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by volume? And; how do we calculate it? Water, in its liquid state at “room” or “ambient” temperature (approximately 24.8 degrees centigrade) takes up a certain (given) volume. This cubic centimeter or one gram of water can also be played with to create a “derived term” of weight/volume = one gram per cubic centimeter (more on that later)

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by volume? And; how do we calculate it? And now back to other types of matter; First the nice, neat regular shaped items.. Measure it’s sides and multiply them to get the “cubic volume”

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by volume? And; how do we calculate it? And now back to other types of matter; First the nice, neat regular shaped items.. Once you have the “cubic volume”; Weigh it…

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by density? And; how do we calculate it? And now back to other types of matter; First the nice, neat regular shaped items.. Once you have the “cubic volume” and the weight – you can determine its DENSITY…

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by density? And; how do we calculate it? Once you have the “cubic volume” and the weight – you can determine its DENSITY… Density is defined as weight divided by volume (or mass) of any object or matter and is expressed as grams/cubic centimeter

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by density? And; how do we calculate it? Therefore; if our “Nice” shaped object weighed 200 grams –and- it occupied a volume of 400 cubic centimeters… it would have a density of 0.5 g/cubic centimeter Density is defined as weight divided by volume (or mass) of any object or matter and is expressed as grams/cubic centimeter

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by density? And; how do we calculate it? But… what if it ISN’T a “nice” “neat” shape? How do we measure it’s density and volume? Density is defined as weight divided by volume (or mass) of any object or matter and is expressed as grams/cubic centimeter

Matter, Mass, Volume, Weight, Density & the “gram” How do we calculate the density of irregular shaped objects like these two? While it seems to be a difficult task – a long time ago a scientist/philosopher named Archimedes came up with a “principle”… Density is defined as weight divided by volume (or mass) of any object or matter and is expressed as grams/cubic centimeter

Matter, Mass, Volume, Weight, Density & the “gram” How do we calculate the density of irregular shaped objects like these two? Archimedes observed the fact that if you put an object into a full bowl of water… it “overflows”!!! Archimedes’ Principle Well duh!!!

Matter, Mass, Volume, Weight, Density & the “gram” How do we calculate the density of irregular shaped objects like these two? Archimedes also observed if you put an object into a less-than-full bowl of water… the level rises! Archimedes’ Principle And his mom doesn’t yell at him for making a mess either!

Matter, Mass, Volume, Weight, Density & the “gram” How do we calculate the density of irregular shaped objects like these two? Archimedes Principle – as it relates to what we are doing today is: (in terms of forces): Any object, wholly or partially immersed in a fluid, is buoyed up by a force equal to the weight of the fluid displaced by the object. (ie – fluids “push back”) Archimedes’ Principle

Matter, Mass, Volume, Weight, Density & the “gram” How do we calculate the density of irregular shaped objects like these two? Archimedes Principle – as it relates to what we are doing today is: that for a sunken object the volume of displaced fluid is the volume of the object, and for a floating object, the weight of the displaced liquid is the weight of the object. Archimedes’ Principle

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by density? And; how do we calculate it? So today – there are four “rock- like” objects: “A”, “B”, “C”, “D”. Using what we’ve learned; First – weigh your object. Next - fill a graduated cylinder with water to some given mark that is a bit more than ½ of the cylinder (*) and then submerge the object. And then - measure the “new” mark, the difference gives us the object’s volume. Last - those two values generate its density.

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by density? And; how do we calculate it? So today – there are four “rock- like” objects: “A”, “B”, “C”, “D”. Using what we’ve learned; First – weigh your object. Next - fill a graduated cylinder with water to some given mark that is a bit more than ½ of the cylinder (*) and then submerge the object. And then - measure the “new” mark, the difference gives us the object’s volume. Last - those two values generate its density.

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by density? And; how do we calculate it? ABCD Wt beg. Level end level Difference Density

Matter, Mass, Volume, Weight, Density & the “gram” Next – what do we mean by density? And; how do we calculate it? ABCD Wt beg. Level end level Difference Density