Activity 8

Activity 8

1. Choose any Teacher-Submitted Activity from any of the Chemistry Simulations (http://phet.colorado.edu/en/simulations/category/chemistry) that we have not yet explore in this course through Activities 1-7 and post your results/data and/or answers on your blog.

2. Work with any of the Chemistry Simulations to create your own Teacher-Submitted Activity and post on your blog.

The criteria for this is as follows:
a. must identify and meet three (3) science education standards
b. must be original work
c. must be scientifically accurate and appropriate for the directed grade level.

Science Standards met:

B.4.1 Use encyclopedias, source books, texts, computers, teachers, parents, other adults, journals, popular press, and various other sources, to help answer science-related questions and plan investigations

C.4.6 Communicate the results of their investigations in ways their audiences will understand by using charts, graphs, drawings, written descriptions, and various other means, to display their answers

D.12.1 Describe* atomic structure and the properties of atoms, molecules, and matter during physical and chemical interactions*

Activity 7

Activity 7

1. At the pH Scale PhET simulation, complete the Teacher-Submitted Activities “pH Scale inquiry-based intro to acid-base” posted by Trish Loeblein on the pH Scale simulation at PhET (http://phet.colorado.edu/en/simulation/ph-scale). On your blog post the answers with your scientific explanations from the “pH Scale inquiry-based intro to acid-base” posted by Trish. NOTE: As you work with PHET, you may need to create an account at this site.

1. The color of a solution identifies if it is an acid, base, or neutral solution. 

Answer: B, False

2. Which solution is basic?

Answer: D

3. Which solution is acidic?

Answer: C

4. Which solution is basic?

Answer: B

5. Which solution is acidic? 

Answer: D

6: How will adding water affect the pH?

Answer: A

7. How will equal amount of water affect the pH?

Answer: B

8. What is the order from most acidic to most basic?

Answer: A

9. What is the order from most acidic to most basic?

Answer: E

10. If spit has a pH of 7.4, what does that tell you about the water equilibrium?

Answer: A

3. At the Acid-Base PhET simulation, complete the Teacher-Submitted Activities “Intro to Strong and Weak Acids and Bases” posted by Chris Bires on the Acid-Base Solutions simulation (http://phet.colorado.edu/en/simulation/acid-base-solutions) and post on your blog your data and answers to the questions posed. NOTE: you may have to click on "Browse more activities" at the bottom of the list.

4. Also post on your blog the common name, chemical name and chemical structure for a common acid and base that you commonly use.

Acid: Lemons

Chemical Name: Citric Acid

Base: Milk

Chemical Name: Lactose

Activity 6

Activity 6

1. Convert 0°F, 32°F, 70°F, and 212°F to Kelvin

0°F = 255.372 K

32°F = 273.15 K

70°F = 294.261 K

212°F = 373.15 K

2. Under the For Teachers area of the State of Matter webpage,  complete the  Teacher Submitted Activities: States of Matter Simulation Lab by Kelly Vaughan. Complete the lab worksheet as if you were a student, and then post this on your blog. You can scan it or just take a picture of it. NOTE: As you work with PHET, you may need to create an account at this site.

3. In the States of Matter simulation, choose the Solid, Liquid, and Gas Tab at the top of the screen. Choose the water molecule and cool the water to 0 K. Describe how the water molecules are aligned and attracted to each other. Which atoms are attracted to which other atoms?

The atoms have space in between each other but they are still somewhat connected. The hydrogen atoms are attracted to the oxygen atoms.

4. Discuss why this statement is not true for water: As a liquid freezes, the molecules come closer together and have greater attraction for each other.

It is not true that the molecules of water pack closer together as the water freezes. In actuality, the molecules just slow down their movement and stop moving around as much.

5. Switch to the Phase Changes Tab on the States of Matter simulation. Notice how on the bottom right there is a small red dot that indicates where the system is at as far as temperature, pressure and state of matter. Play with the simulation to notice changes, notice that when you push down the pressure can go way up and explode the box. On your blog, report a temperature and pressure required to make oxygen a liquid. This is sometimes how the oxygen exists in pressurized oxygen tanks, perhaps like ones you may use to go diving.

Oxygen can exist as a liquid at 25.2 ATM and 75 K.

5. List and describe at least two Science Standards that this activity addresses. 

B.4.1 Use encyclopedias, source books, texts, computers, teachers, parents, other adults, journals, popular press, and various other sources, to help answer science-related questions and plan investigations 

In order to successfully complete this lab simulation, a computer was used.

D.4.3. Understand that substances can exist in different states-solid, liquid, gas 

The point of completing this lab simulation was to understand that substances can exist in different states, including solids, liquids, and gases.

Activity 5

Activity 5

1. Run the Build an Atom simulation http://phet.colorado.edu/en/simulation/build-an-atom and build a neutral lithium atom and a neutral boron atom.  Take a picture, or a screen shot, of these two atoms and place them on your blog.  List the number of protons, neutrons and electrons for each. Also look up and post the density for each of the elements on your blog.

Lithium

Protons: 3

Neutrons: 4

Electrons: 3

Density: 0.535 g/cm^3

Boron

Protons: 5

Neutrons: 6

Electrons: 5

Density: 2.46 g/cm^3

2. Define density and the equation for density and post on your blog.

Density: the amount of matter in a given amount of space

D=mass/volume

3. Run the Density simulation http://phet.colorado.edu/en/simulation/density and complete one(your choice) of the prepared Teacher-Submitted Activities under the Teacher Resources on the simulations page and post your results on your blog. The activity you choose should be one of the student intended activities.

I chose to complete the Sink or Float Activity under the Teacher-Submitted Activities section. 

Part 1

1.      What material/s that float/s in the water?

The wood, Styrofoam, and ice all float in the water.

2.      What material/s that sink/s in water?

The brick and aluminum both sink in the water.

3.      Give the density of each materials:

Ø  WOOD

-          .40 kg/L

Ø  ALUMINUM

-          2.70 kg/L

Ø  STYROFOAM

-          .15 kg/L

Ø  BRICK

-          2.0 kg/L

Ø  ICE

-          .92 kg/L

Part 2

1.      What is the relationship between mass and volume in relation of object’s density?

If the mass is less than the volume, the object will float because the density will be less than 1. If the mass is greater than the volume, the object will sink because the density will be greater than 1.

2.      What are the characteristics of those materials that sink in the water?

Every object that sunk had a greater mass than volume.

3.      Give your understanding about density of an object.

As the definition states, density relates to the amount of mass in a volume of space. The density will be greater if the mass is higher than the volume, and the density will be lower if the mass is less than the volume.

4.      Provide at least two scenarios that the concept of Density could apply.

-          Ships float because the hull of the ship is designed to displace water. Because it weighs less than the water it displaces, the ship will float.

-          Different types of wood have different densities, such as pine and oak. Oak is more dense than pine. The fibers are packed tighter in oak than they are in pine. So if you have an oak table and a pine table of the same size, the oak table will be denser. 

4. Complete the Mystery Blocks activity on the Density simulation.  Post on your blog the data you collected (mass, volume, and density) and the identification of the material and the known density.

Block A:

Mass- 65.14 kg

Volume- 3.38 L

Density- 19.27 kg/L

Material- Gold (known density: 19.3 kg/L)

Block B:

Mass-  0.64 kg

Volume- 0.64 kg

Density- 1 kg/L

Material- Water (known density: 1 kg/L)

Block C:

Mass- 4.08 kg

Volume- 4.08 L

Density- 1 kg/L

Material- Water (known density: 1 kg/L)

Block D:

Mass- 3.10 kg 

Volume- 3.10 L

Density- 1 kg/L

Material- Water (known density: 1 kg/L)

Block E:

Mass- 3.53 kg

Volume- 1 L

Density- 3.53 kg/L

Material- Diamond (known density: 3.53 kg/L)

5. Identify and post on your blog the Science Standards that could be met through these activities completed in Activity 5

B.4.1 Use encyclopedias, source books, texts, computers, teachers, parents, other adults, journals, popular press, and various other sources, to help answer science-related questions and plan investigations 

C.4.6 Communicate the results of their investigations in ways their audiences will understand by using charts, graphs, drawings, written descriptions, and various other means, to display their answers 

A.4.3 When investigating a science-related problem, decide what data can be collected to determine the most useful explanations