Lecture 2: Solutions

Question 1

1. Define mixture, solution, solvent and solute.

Answer 1

A mixture is a combination of molecules that are not dissolved. A solution is a homogeneous mixture in which one substance (solute) is dissolved in another substance (solvent). The substance that dissolves the solute in a solution is called as the solvent. The substance that gets dissolved in the solvent in a solution is called as the solute.

Question 2

2. What differentiates an electrolyte solution from a non-electrolyte solution?

Answer 2

An electrolyte solution has dissolved ions. A non-electrolyte solution has dissolved molecules.

Question 3

3. When 1g of nanoparticles of gold are mixed with water, what kind of solution do you get? And what if water is mixed with NaCl nanoparticles instead?

Answer 3

a suspension an electrolyte solution

Question 4

4. Is it possible to have a solid solution? Give at least one example.

Answer 4

is a solid-state solution of one or more solutes in a solvent. It is different to a compound as the crystal structure of the solvent remains unchanged by addition of the solutes. Steel is one.

Question 5

5. What would generate dipoles in molecules?

Answer 5

One atom attracts electrons more than the other and so one becomes more negative while the other becomes more positive.

Question 6

6. What is a hydrogen bond and how are they formed? Give two examples.

Answer 6

A hydrogen bond is a primarily electrostatic force of attraction between a hydrogen atom which is covalently bound to a more electronegative atom or group electronegative ba

Question 7

7. Why does the curvature of the meniscus in a flask face outside liquid water and the inverse applies to liquid mercury?

Answer 7

Formation of meniscus depends on cohesive and adhesive forces in a liquid. In water adhesive forces >than the cohesive forces. In mercury cohesive forces < adhesive forces.

Question 8

8. Which solution with polymers would be more viscous: one with short chain or long chain polymers? Why?

Answer 8

long chain molecules have more intermolecular forces therefore would be more viscous.

Question 9

9. What is molar solubility and how can you get a saturated solution of any compound?

Answer 9

Molar solubility is the number of moles of a substance (the solute) that can be dissolved per liter of solution before the solution becomes saturated. Add solute to liquid until dissolving stops. or Evaporate a solvent from a solution until the solute begins to crystallise or precipitate.

Question 10

10. What is a surfactant? Give some examples of where they can be found.

Answer 10

A surfactant is a molecule that has a hydrophobic and a hydrophilic part so that a lipid and water can be combined.

Question 11

11. Based on the equation ΔG = ΔH – TΔS, what would you say determines the dissolution of a compound?

Answer 11

Dissolving depends on the balance between the increase in entropy of the solution and the increase in entropy of the surroundings

Question 12

12. When does a chemical reaction reach equilibrium and how you can determine this experimentally?

Answer 12

Chemical reactions reach a state of dynamic equilibrium in which the rates of forward and reverse reactions are equal and there is no net change in composition.

Question 13

13. What is activity and what is the activity of a pure compound.

Answer 13

In chemical thermodynamics, activity (symbol a) is a measure of the “effective concentration” of a species in a mixture, taking into consideration the interactions between solvent and solute by an empirical constant γi activity coefficient. activity a = 1 for a pure compound.

Question 14

14. Given the chemical reaction aA(g) + bB(g) ⇌ cC(g) + dD(g), what would be the equilibrium constant? And if instead the equation was: aA(s) + bB(g) ⇌ cC(g) + dD(g)

Answer 14

k1=cC(g)+dD(g)/aA(g)+bB(g) Generally, we assume that pure solid and liquid components have been eliminated from an equilibrium expression. so aA(s)=0 K2 = cC(g)+dD(g) / bB(g)

Question 15

15. Based on thermodynamics, what can you say about a reaction that has K<1 and one that has K>1?

Answer 15

K < 1 for endothermic reaction K > 1 for exothermic reaction

Question 16

16. Having a small K for a dissolution reaction, what value would you expect for the solubility of a material? Also, could you say if this material would never or always be dissolved in any situation?

Answer 16

If K is small, reactants are favoured so dissolved products are favoured.

Question 17

17. Considering the following reaction of dissolution aA(s) ⇌ cC(g) + dD(g), how would you increase the dissolution in the system? You have access to any equipment and reagents you like.

Answer 17

increase temperature stir to increase entropy

Question 18

18. Would shaking a liquid with a salt vigorously increase the dissolution of that compound? Would changing the temperature have any effect? Would changing the pressure? Explain why.

Answer 18

-yes as it increases the entropy.

Question 19

19. What is the most basic definition of acids and bases? Explain what is a weak and a strong acid and base?

Answer 19

An acid is a compound that contains hydrogen and reacts with water to form hydrogen ions. A base is a compound that produces hydroxide ions in water.

Question 20

20. Explain what pH and pOH are. What is the concentration of H+ at pH 12?

Answer 20

Levels of Hydrogen and Hydroxide. Which each indicate levels of acidity and alkalinity respectively. The concentration is 12. pH=-log10C

Question 21

21. In a polyprotic acid, what would you expect to be the comparative size of the constant of equilibrium for each H+ dissociation?

Answer 21

Polyprotic acids are specific acids that are capable of losing more than a single proton per molecule in acid-base reactions. (acids that have more than one ionizable H+ atom per molecule), and increase by 5 units.

Question 22

22. How should you determine a rate law for a reaction?

Answer 22

1. three reactions. Initial concentrations in first reaction. the second doubles the first and the third doubles the second reactant. 2. determine the power to which the reactants increase. and place in reaction with the powers.

Question 23

23. Why is the half-life of first-order reactions important to measure time?

Answer 23

radiation decay can tell us the year. it decays at a steady rate. c-14 is present in the past and decays to carbon-12.

it affects the rate of reaction.

Question 24

24. According to the collision theory, how does a chemical reaction happen? In other words, what is necessary for a chemical reaction to happen?

Answer 24

if two atoms hit eachother with the right orientation at the right energy they will react. (activation energy)

Question 25

Does the equilibrium constant change when a catalyst is used for a chemical reaction? What does a catalyst do to a reaction?

Answer 25

it does not change the equilibrium constant. It only speeds up the rate in both directions and the speed at which it reaches the equilibrium.

Question 26

26. How is the mechanism of chemical reactions determined? Is it possible to have more than one mechanism proposed for the same reaction?

Answer 26

-imagine all the mechanisms and sum them. mechanisms can be different and will have the same overall equation.

Find the intermediary substances and measure them.

Question 27

How is the equilibrium constant related to the standard Gibb’s free energy change of reaction?

Answer 27

G= - R*T*lnK