Warm up: What is the kinetic molecular theory, and how does temperature affect the behavior of particles in a gas?

Slides:

Advertisements

Similar presentations

What is Matter? Properties of Matter.

Advertisements

“Stop the Leak”.

States of Matter.

Properties of Fluids. Background Both air and water are examples of fluids. Any substance that flows and takes the shape of its container is considered.

Understanding Heat Transfer, Conduction, Convection and Radiation.

Convection Density of Fluids Investigation 5, Part 1.

Water Hot Water, Cold Water Investigation 2 Part 1: Build A Thermometer.

Fluid Dynamics Factors Affecting Fluids SCI 8: Fluids Unit

Get out your science binder.

Heat Transfer. What do we know? Heat in Solids In solids, the atoms or molecules are locked into position. When radiant energy is absorbed by one area.

Conduction Investigation 4, Part 2

The particle nature of matter: revision. You should be familiar with the characteristic properties of solids, liquids and gases from your junior science.

Convection Currents Lab By PresenterMedia.comPresenterMedia.com.

Part 1: Weather, Lesson 5 Absolute Zero

Chemistry Notes Physical Science = study of matter and energy Chemistry = study of matter Physics = study of matter and its motion Matter = anything that.

Vanderbilt Student Volunteers for Science Fall 2011

Kinetic Energy and Heat Transfer

DO NOW  Which of these things are made up of matter?  You  Miss Kerschen  Your lunch  Your locker  The rain  Air.

Air, It’s Really There. Are gases, such as the gases in air, matter? The air around you is made up of some different gases – nitrogen, oxygen, carbon.

Middleschoolchemistry.com Big Ideas about the Very Small

Heat-Energy on the Move

Matter & Energy. If you heat something, what’s happening on the Atomic Level? Atoms, no matter what the temperature or state (solid, liquid, gas) are.

Understanding Thermal Energy and Heat Transfer

A Case For Particles. Particle Theory of Matter All matter is made up of smaller particles. Part 1: THINK OBSERVATION: In the freezer, ice cubes become.

Deep Ocean Currents Vanderbilt Student Volunteers for Science Training Presentation Fall 2013.

DO NOW V: 0 Monday Answer on your “Do Now” page. Date DO NOW Answer

Introduction to Chemistry Rachel Keating | Rosehill School.

AIMAIM: What are the phases of matter? Identify the three basic phases of matter.

Is the speed of water molecules different in hot and cold water? What can we do to find out?

MOLECULES MATTER. Molecules Matter  Atom – the smalles building block of matter  Molecule – two or more atoms connected together  We will represent.

Jeopardy Properties Of Matter States of Matter/ Physical & Chem- ical Changes Mixtures and Solutions Separating Mixtures Wild Card Q $100 Q $200 Q $300.

Earth Science Intro Unit

Energy, Heat and Heat Transfer Earth Science Intro Unit.

OBJECTIVES OF TODAY’S ACTIVITY

Properties of Matter. Phenomenon Ice floats in water. Why does the ice in a glass of ice water float?

Earth Science Intro Unit

 Forces of attraction between particles are strong when they are close together  Particles cannot flow in a solid b/c.

Arrows, Color and Captions Visualization Exercise 4.3.

Pressure in a Jar What do you think will happen to the water in the tube when I squeeze the jar? Record your predictions under Part 1 of page 45 of.

1 Solids, Liquids & Gases. 2 CAN YOU SEE? macroscopicmicroscopic.

DENSITY Intro to the Ocean and Atmosphere. Objectives  To how to calculate density  To predict how “high density” molecules will move  To predict how.

FEBRUARY 5, 2014 If you are working on your test from yesterday, you will have 10 more minutes of class time. If you do not finish you will have to come.

NOVEMBER 12, 2015 RIGHT NOW: GET 6.2 NOTES AGENDA: 6.2 NOTES SKILLS SHEET/HOMEWORK OBJECTIVE: DETERMINE HOW THE SUN DRIVES ATMOSPHERIC CONVECTION.

Water is made up of molecules. Water changes state (gas, liquid, solid) when it’s molecules are heated or cooled.

Investigation 2 Part 2: Sinking and Floating Water 1 SWI2P2.

Ecosystems and biomes Forms of Water, Heat capacity and surface tension.

Density Column Lab. What is a physical property?

Fluids and Dynamics Unit 3

Convection Convection in Water Investigation 5, Part 2.

UNIT 3 Chapter – Fluids and Density. Objectives By the end of the lesson you should be able to: Define density Relate density to the 3 states of.

Heat Transfer. Investigation 4- Heat Transfer Enduring Understanding: The movement of heat energy in and out of the atmosphere is an important element.

Changes of State Lab Grade 7 Science. Your Task Every two minutes one student will record the temperature of the ice or the water on the large chart,

Water and Weather Unit Week 13 Directions 1.Prepare your desk for science. 2.Use voice level 0 (no voice) to look at notebook pg Focus on the question.

Saltwater Density Vanderbilt Student Volunteers for Science Training Presentation Spring 2016 Change saltwater graph to reflect saturation level.

Deep Ocean Currents Vanderbilt Student Volunteers for Science Training Presentation Spring 2016.

I will know the difference between temperature and heat. I will know that thermal energy depends on different variables. I will be able to graph temperature.

Investigation 5. Part 1  In the last investigation we observed changes when matter in its 3 phases heated up and cooled down.  What changes did you.

What are the Factors that Affect Density?

Volume Matter Density Texture Increase Decrease Remove heat Add Heat Alter.

THURSDAY, APRIL 14 TH  Please take out your notebook, homework check sheet, and last night’s homework  Warm-up: 1. What happens to the atoms or molecules.

Investigation Four Date: 11/1/16

FOSS Diversity of Life Ms. Longo 6th Grade Earth Science.

Welcome to Mr. Conroy’s Science Class

Kinetic Theory of Molecules

Convection in Water Investigation 5, Part 2

IAN page Molecules in Motion.

State of Matter Volume Shape Structure/Energy

Deep Ocean Currents Vanderbilt Student Volunteers for Science

Density of Fluids Investigation 5, Part 1

Heat and Temperature Unit 4 Lesson 2.

Presentation transcript:

Warm up: What is the kinetic molecular theory, and how does temperature affect the behavior of particles in a gas?

Objective:  Students will be able to explain, on the molecular level, how heating and cooling affect the density of water  The purpose: is to know water on Earth is distributed and circulated through oceans, glaciers, rivers, ground water, and the atmosphere and The physical characteristics and changes of solid, liquid, and gas states can be explained using the particulate model

Discussion  what is the particle model of matter?  All matter is made up of particles that are much too small to be seen. The particles are always in motion. They vibrate, rotate, and (in liquids and gases) move from place to place. The particles have empty spaces between them

New seats  Point manager  5 points for each person that turns in work (homework checker)  20 points for clean room and no writing on desks  5 points for each person that answers questions  End of the month celebration

Demonstration:  I am going to try to place one jar filled with hot colored water upside down over another jar with cold colored water.  Make a prediction:  Do you think the hot and cold water will mix or stay separate?  _on_cold_water _on_cold_water

Discussion:  Why do you think the hot water stayed on top of the cold water?  Make a prediction: What might happen if you placed the cold blue water on top of the hot yellow water and then removed the card?  Why do you think the hot and cold water mixed when the cold water was placed on top?

One person per group (2 of you) get:  Hypothesis: Is there a density difference between hot and cold water?  Materials for each group  Cold water (colored blue) in foam cup  Hot water (colored yellow) in foam cup  Room-temperature water in clear plastic cup (colorless)  2 droppers

Me:  Add ice to water to make very cold water. Half-fill one foam cup with cold water (no ice cubes) and another with hot water for each group.  Add 2 drops of yellow food coloring to the hot water and 2 drops of blue food coloring to the cold water.  Fill a clear plastic cup about ⅔ of the way with room-temperature water.  Distribute the set of 3 cups to each group.

Worksheet Fill one dropper with blue cold water. Poke the end of the dropper about halfway into the colorless room-temperature water. While observing from the side, very gently squeeze the dropper so that the cold water slowly flows into the room-temperature water. Fill another dropper with yellow hot water. Poke the end of the dropper about halfway into the room- temperature water. While observing from the side, very gently squeeze the dropper so that the hot water slowly flows into the room-temperature water. Record your observations on the activity sheet

 3. Draw what you observed in the cup of room-temperature water after adding blue cold water and yellow hot water.   Be sure to label the areas of cold and hot water.   Is cold water more, less, or the same density as room-temperature water?   Is hot water more, less, or the same density as room-temperature water?   In the animation, you saw water molecules being heated and cooled.   5. Use what you know about density to answer the following questions.   Why does cold water sink in room-temperature water?   Why does hot water float on room-temperature water?   6. Your teacher did a demonstration with two cups of water that both had food coloring on the bottom. Ice was placed in one cup of water, but not the other.  The food coloring mixed more quickly in the cup that had the ice.  Use what you know about the density of water at different temperatures to explain why this happened.

Discussion:  What did you notice when you placed the cold blue water in room- temperature water?  Is cold water more, less, or the same density as room-temperature water? About hot water What did you notice when you placed the hot yellow water in room-temperature water? Is hot water more, less, or the same density as room-temperature water?

Notes  and_hot_water and_hot_water  The molecules of cold water move slower and are a little closer together than the hot or room-temperature water.  When the water is cooled, the water level falls slightly in the graduated cylinder.  In the animation, you saw that as water is cooled the water level goes down. Cold water has a smaller volume, but the mass stays the same. What does this tell you about the density of cold water?  How does this help explain why cold water sinks in room-temperature water?

Notes extended  In the animation, you saw that as water is heated the water level rises. Hot water takes up more volume, but the mass stays the same. What does this tell you about the density of hot water?  How does this help explain why hot water floats on room temperature water?  Article reading