States of Matter & Their Properties

Slides:



Advertisements
Similar presentations
Mass is the amount of matter (“stuff”) in an object.
Advertisements

Making Measurements in Science
What is Matter? Chapter 2 Section 1.
Measurement. Volume – Regular Shaped Object You can find the volume of a solid by multiplying length, width, and height together. Formula : V = l x w.
Lesson 1: Introduction to matter
What Does it Matter.
Metric Measurement.
The Properties of Matter
The Metric System.
 Standard measure of a quantity  Examples › Length = Meter (m) › Volume = Liter (L) › Mass = Grams (g) › Temperature = Celcius (°C)
Measurement The International System of Units (SI) is the standard system used around the world.
 Finding Mass, Volume, and Density. Mass  The amount of matter in an object  Measured in grams (g), milligrams (mg) or kilograms (kg)  Stays the same.
 Property- a characteristic that helps identify an object  *Some common properties are: color, shape, size, feel, taste, smell, mass, volume.
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.
VOLUME Volume Definition: The amount of space an object takes up. Tools/Instruments for volume: –Liquid volume: Graduated Cylinder –Solid volume: Ruler.
Metric Units Mass refers to the amount of matter in an object. Base unit for mass is the gram and is represented by g Standard: 1 kilogram is equal to.
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.
What is Matter? Section Object comparison How are the following alike? – Rock – Paper clip – Book – Pencil – Box How do their sizes compare? Which.
Properties of Matter Mass Volume Density.
Chapter 2 The Properties of Matter. Section 1: What is Matter? Matter – anything that has mass and takes up space –Examples: air, water, books, hair,
Properties of Matter Structure and Properties of Matter.
MatterVolume Measuring Volume Mass and Weight Mass, Weight, and Inertia
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.
Science ch. 3. LOLAfter taking notes, I will be able to identify and analyze the essential properties of matter.
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.
METRIC SYSTEM. What is the metric system? What is the metric system? A system used to measure length, mass volume and temperature all over the world.
What is Matter? Matter is anything that has volume and mass.
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.
Volume, Mass, and Weight…OH MY !. MATTER: Anything that has mass and takes up space.
Length, Volume, Mass, and Density. Length How “long” something is A ruler is used to measure length.
Matter Matter is anything that has mass and takes up space. Almost everything around us is considered matter. What about a rock, pen or pencil, glass.
What is Matter? I can describe the two properties of all matter.
Unit 1 Lesson 1 Introduction to Matter
Chapter 2 Chapter 2.
09/01/2016 Convert the following: 1000 mg = _______ g 1 L = _______ mL
Unit 1 Lesson 1 Introduction to Matter
MATTER has _________ and Mass volume.
MEASUREMENT IN SCIENCE
Bellringer In your composition books, answer the questions below in complete sentences. Rank these units from the smallest to largest: micrometer, nanometer,
Matter has mass and volume.
09/01/2016 Daily Science: Convert the following: 5 L = _______ mL
Density Notes.
SCIENTIFIC MEASUREMENT
Volume.
AIM: How is the volume of irregularly shaped objects measured?
Bell Ringer Which of the following is the best description of measuring the volume of an object? How loud an object sounds How much space an object takes.
Introductory Concepts for Physical Science or Chemistry
Chapter 3 - Measurements
DENSITY.
Measurement Part 3.
Opening assignment – page 46
Measurement-A Common Language
Unit 1 Lesson 1 Introduction to Matter
Measurement Part 3.
Mass, Weight, Volume Notes
Weight, Mass, Volume and Density
What is Matter? Physical Science
Weight, Mass, Volume and Density
Measurement Part 3.
Properties of matter Objects: *Describe the two properties of matter
How can you measure the volume of solid objects?
What is Matter?.
PG 7 of your Science Notebook
What is the Matter?.
Measurement Part 3.
MEASUREMENT IN SCIENCE
Volume.
Volume Notes 8/27/19.
Presentation transcript:

States of Matter & Their Properties Matter & Volume States of Matter & Their Properties

Matter: What’s it matter? Matter is anything that has mass and takes up space. The amount of _________ matter takes up is an object’s _____________. Check out this water/sound activity. https://www.youtube.com/watch?v=DvkELEBMLV0

Matter: What’s it matter? Matter is anything that has mass and takes up space. The amount of space matter takes up is an object’s _____________. Check out this water/sound activity. https://www.youtube.com/watch?v=DvkELEBMLV0

Matter: What’s it matter? Matter is anything that has mass and takes up space. The amount of space matter takes up is an object’s volume. Check out this water/sound activity. https://www.youtube.com/watch?v=DvkELEBMLV0

Volume: Liquids The units of measurement for volume are Liters and Milliliters. What did we discuss in the first unit that was a measurement for volume? ____________________________ To accurately read a ___________, (the curve at the surface of a liquid), you must read the _____________ at the ____________ part of the curve. _______________ beakers make it hard to see the meniscus.

Volume: Liquids The units of measurement for volume are Liters and Milliliters. What did we discuss in the first unit that was a measurement for volume? Graduated cylinders To accurately read a ___________, (the curve at the surface of a liquid), you must read the _____________ at the ____________ part of the curve. _______________ beakers make it hard to see the meniscus.

Volume: Liquids The units of measurement for volume are Liters and Milliliters. What did we discuss in the first unit that was a measurement for volume? Graduated cylinders To accurately read a meniscus, (the curve at the surface of a liquid), you must read the _____________ at the ____________ part of the curve. _______________ beakers make it hard to see the meniscus.

Volume: Liquids The units of measurement for volume are Liters and Milliliters. What did we discuss in the first unit that was a measurement for volume? Graduated cylinders To accurately read a meniscus, (the curve at the surface of a liquid), you must read the scale at the lowest part of the curve. _______________ beakers make it hard to see the meniscus.

Volume: Liquids The units of measurement for volume are Liters and Milliliters. What did we discuss in the first unit that was a measurement for volume? Graduated cylinders To accurately read a meniscus, (the curve at the surface of a liquid), you must read the scale at the lowest part of the curve. Large beakers make it hard to see the meniscus.

Volume: Solids When we have a regularly-shaped object, we can find its ____________ unit by multiplying ___________ by ____________ by ____________. The unit’s expression: _______ ________________ is the method for discovering volume of an _________________ object. Find number at the line. Insert object. Find new number. Subtract numbers. This is your volume. 

Volume: Solids When we have a regularly-shaped object, we can find its cubic unit by multiplying ___________ by ____________ by ____________. The unit’s expression: _______ ________________ is the method for discovering volume of an _________________ object. Find number at the line. Insert object. Find new number. Subtract numbers. This is your volume. 

Volume: Solids When we have a regularly-shaped object, we can find its cubic unit by multiplying length by width by height. The unit’s expression: _______ ________________ is the method for discovering volume of an _________________ object. Find number at the line. Insert object. Find new number. Subtract numbers. This is your volume. 

Volume: Solids When we have a regularly-shaped object, we can find its cubic unit by multiplying length by width by height. The unit’s expression: 1 m3 ________________ is the method for discovering volume of an _________________ object. Find number at the line. Insert object. Find new number. Subtract numbers. This is your volume. 

Volume: Solids When we have a regularly-shaped object, we can find its cubic unit by multiplying length by width by height. The unit’s expression: 1 m3 Displacement is the method for discovering volume of an irregular object. Find number at the line. Insert object. Find new number. Subtract numbers. This is your volume. 

Practice! A book has a length of 25 cm, a width of 18 cm, and a height of 4 cm. What is its volume? What is the volume of a suitcase that has a length of 95 cm, a width of 50 cm, and a height of 20 cm? A CD case is 14.2 cm long, 12.4 cm wide, and 1 cm deep. What is its volume?

Mass V. Weight Mass: A measure of the amount of ____________ in an object Weight: A measure of the ___________________ force on an object. Mass: _____________ for an object, no matter its location Weight: ______________ depending on its relation to earth Mass: Measured by using a ________________. Weight: Measure by using a ______________________. Mass: Expressed in ______. Weight: Expressed in _______.

Mass V. Weight Mass: A measure of the amount of matter in an object Weight: A measure of the ___________________ force on an object. Mass: _____________ for an object, no matter its location Weight: ______________ depending on its relation to earth Mass: Measured by using a ________________. Weight: Measure by using a ______________________. Mass: Expressed in ______. Weight: Expressed in _______.

Mass V. Weight Mass: A measure of the amount of matter in an object Weight: A measure of the gravitational force on an object. Mass: _____________ for an object, no matter its location Weight: ______________ depending on its relation to earth Mass: Measured by using a ________________. Weight: Measure by using a ______________________. Mass: Expressed in ______. Weight: Expressed in _______.

Mass V. Weight Mass: A measure of the amount of matter in an object Weight: A measure of the gravitational force on an object. Mass: Constant for an object, no matter its location Weight: ______________ depending on its relation to earth Mass: Measured by using a ________________. Weight: Measure by using a ______________________. Mass: Expressed in ______. Weight: Expressed in _______.

Mass V. Weight Mass: A measure of the amount of matter in an object Weight: A measure of the gravitational force on an object. Mass: Constant for an object, no matter its location Weight: Varies depending on its relation to earth Mass: Measured by using a ________________. Weight: Measure by using a ______________________. Mass: Expressed in ______. Weight: Expressed in _______.

Mass V. Weight Mass: A measure of the amount of matter in an object Weight: A measure of the gravitational force on an object. Mass: Constant for an object, no matter its location Weight: Varies depending on its relation to earth Mass: Measured by using a balance. Weight: Measure by using a ______________________. Mass: Expressed in ______. Weight: Expressed in _______.

Mass V. Weight Mass: A measure of the amount of matter in an object Weight: A measure of the gravitational force on an object. Mass: Constant for an object, no matter its location Weight: Varies depending on its relation to earth Mass: Measured by using a balance. Weight: Measure by using a spring scale. Mass: Expressed in ______. Weight: Expressed in _______.

Mass V. Weight Mass: A measure of the amount of matter in an object Weight: A measure of the gravitational force on an object. Mass: Constant for an object, no matter its location Weight: Varies depending on its relation to earth Mass: Measured by using a balance. Weight: Measure by using a spring scale. Mass: Expressed in kg, g, & mg. Weight: Expressed in N.

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2025 SlidePlayer.com. Inc. All rights reserved.