South Pasadena • Chemistry
Name
4 • Salts and Solutions
Period
Date
SOLUTIONS SIMULATIONS
Run these simulations and complete these questions using complete sentences
Concentration Simulation
Run the Concentration Simulation at: http://phet.colorado.edu/en/simulation/concentration
1. Write the color of each solution.
(a) Drink mix
(e) Potassium chromate
(b) Cobalt (II) nitrate
(f) Nickel (II) chloride
(c) Cobalt chloride
(g) Copper sulfate
(d) Potassium dichromate
(h) Potassium permanganate
2. State a claim about the relationship between the color of the solution and its concentration. Provide evidence
supporting this claim.
Claim:
Evidence:
3. What are two ways to increase the concentration of the solution? Based on these two ways, what factors and
in what way do these factors affect the concentration? (e.g. “One factor that determines the solution’s
concentration is the
. As the
increases, the concentration
.”)
4. What is one way to decrease the concentration of the solution?
5. What happens to the concentration when the solution drained? Why?
6. Watch what happens when lots of each solute is added to the solution and then evaporated. Explain what
happens to the solute and the concentration of the solution as more solute is added.
7. Find the concentration of the solution for each solute when it is saturated.
(a) Drink mix
(e) Potassium chromate
(b) Cobalt (II) nitrate
(f) Nickel (II) chloride
(c) Cobalt chloride
(g) Copper sulfate
(d) Potassium dichromate
(h) Potassium permanganate
8. List the solutes from the least soluble to the most soluble.
Molarity Simulation
Run the Molarity Simulation at: http://phet.colorado.edu/en/simulation/molarity
This simulation is similar to the Concentration Simulation. Click on “Show values.”
1. State the relationship between the amount of solute and the solution concentration while the solution volume
remains constant.
The amount of solute is [directly | inversely] related to the solution concentration because when you
double the amount of solute while keeping the volume constant, the solution concentration is
.
2. State the relationship between the solution volume and the solution concentration while the amount of solute
remains constant. (See example in question 1.)
3. State the relationship between the amount of solute and the solution volume while keeping the solution
concentration constant. (Hint: When you double the amount of solute, what do you have to do to the solution
volume to keep the same concentration?)
4. Find the concentration of each solution when it is saturated.
(a) Drink mix
(f)
(b) Cobalt (II) nitrate
(g)
(c) Cobalt chloride
(h)
(d) Potassium dichromate
(i)
(e) Gold (III) chloride
Potassium chromate
Nickel (II) chloride
Copper sulfate
Potassium permanganate
5. Can a solution be more than saturated? What happens to the solution and its concentration as you continue to
increase amount of solute beyond saturated?