Lecture 7

Question 1

Why is solubilty important?

Answer 1

We as pharmacists administer the drug in many forms. Capsules, tablets, etc.
This drug needs to be absorbed and thus in a soluble form

There are also problems when starting to formulate pharmaceutical solutions which understanding solubility can help to overcome

Question 2

What do we need to consider when formulating a solution?

Answer 2

which substances are soluble in which solvent

if there are any incompatibilities

Question 3

How can we predict which solvent is soluble with which type of drug?

Answer 3

We can look into the chemical structure of the drug

Question 4

What is a solution?

Answer 4

a mixture of 2 or more components that form a homogenous molecular dispersion

Question 5

what are the components in a solution refferred to as?

Answer 5

the solute and the solvent

Question 6

What is the solute?

Answer 6

the dissolved agent and is dispersed as molecules or ions through the solvent.
Generally the less abundant part of the solution although this is not always the case

Question 7

what is the solvent?

Answer 7

the component in which the solute is dissolved in and is generally the more abundant part of the solution although this is not always the case

Question 8

in a solution of salt and water, what is the solute? what is the solvent?

Answer 8

salt = solute
water = solvent

Question 9

What is dissolution?

Answer 9

the transfer of molecules or ions from a solid state into the solution
This is a rate, dynamic process.
It is an extensive material property, so is dependent on other physicochemical barriers

Question 10

what is solubility?

Answer 10

the extent at which the amount of substance passes into the solution to establish equilbrium under a given set of environmental conditions

i.e. the maximum amount of solutes that will dissolve in a given quantity of solvent at a given temperature.

it is a static process

Question 11

Why do solutions form?

Answer 11

molecules have a natural tendency to spread out
Consider the example of water and ethanol in a beaker
there will be a layer of water at the bottom, and a layer of ethanol at the top.
At the interface there will be a tendency for some water molecules to go into the ethanol phase and vice versa. When this happens, there is a breakage of water-water and ethanol-ethanol bonds and a formation of new bonds between ethanol and water

Question 12

What allows the ethanol and water to mix easily?

Answer 12

the attractions between the ethanol and water molecules are of the same kind (hydrogen bonds)

as the bonds are similar, they have a tendency to form a homogenous solution

Question 13

What is a saturated solution

Answer 13

one in which the maximum amount of solute is dissolved in the solvent.
The dissolved solute in the solution is in dynamic equilbirum with the undissolved state
the rate of dissolved solute = rate of precipitation

Question 14

What is an unsaturated solution (sub saturated solution)

Answer 14

a solution which contains an amount of solute that is less than its solubility
All the solute is present in its dissolved state.

unsaturated = havent reached equilibrium

Question 15

What is a supersaturated solution?

Answer 15

a solution which contains an amount of solute that is more than its solubility
this is a meta-stable state
If its disturbed in any way, the excess solute will precipitate out and eventually form a saturated solution.
The amount of solute is more than expected at room temperature

Question 16

How is solubility defined according to the USP?

Answer 16

in terms of parts

Question 17

What is classified as very soluble?

Answer 17

less than 1 part of solvent is required to dissolve 1 part of solute

Question 18

What is freely soluble?

Answer 18

1-10 parts of solvent required for 1 part of solute

Question 19

what is soluble?

Answer 19

10-30 parts of solvent required for 1 part of solute

Question 20

what is sparingly soluble?

Answer 20

30-100 parts of solvent required for 1 part of solute

Question 21

what is slightly soluble?

Answer 21

100-1000 parts of solvent required for 1 part of solute

Question 22

what is very slightly soluble?

Answer 22

1000-10,000 parts of solvent required for 1 part of solute

Question 23

what is practically insoluble?

Answer 23

more than 10,000 parts of solvent required for 1 part of solute

Question 24

how is solubility epressed in general?

Answer 24

in terms of maximum mass or volume of solute that will dissolve a mass or volume of solvent

Question 25

what is the unit of solubility?

Answer 25

kg/m^3

Question 26

what is the mass fraction?

Answer 26

calculated as mass of solute/total mass of solution

Question 27

what is the weight percent?

Answer 27

mass fraction x 100

Question 28

what can solubility also be expressed as?

Answer 28

percentage e.g. %w/v, %v/v and %w/w

Question 29

What is molarity?

Answer 29

the number of moles of solute in 1L of solution

solutions of equal molarity contain the same number of solute molecules in a given volume of solution

Question 30

What is the unit of molarity?

Answer 30

molL-1

Question 31

How is Molarity calculated?

Answer 31

weight of substances / molecular mass x L

Question 32

What is molality?

Answer 32

the moles of solute / kg of solvent

water is easy as 1g = 1mL but othersolvents may be different so need to calculate weight using specific gravity

Question 33

why is molality the more precise way of expressing solubility?

Answer 33

it is not altered by temperature

Question 34

what is the mole fraction?

Answer 34

same as the mass fraction, but you are calculating the number of moles, not mass

Question 35

when are ppn, ppb and ppt used?

Answer 35

for very dilute solutions for expressing solubility

Question 36

what is ppm?

Answer 36

= mass of solute/mass of solution x 10^6

Question 37

what is ppb?

Answer 37

= mass of solute/mass of solution x 10^9

Question 38

what is ppt?

Answer 38

= mass of solute/mass of solution x 10^12

Question 39

What does a solution form due to?

Answer 39

an interaction between the 2 components

Question 40

what is a simple way to express this interaction phenomena that causes a solution to form?

Answer 40

like dissolves like

Question 41

what happens if cohesive forces are greater than adhesive forces?

Answer 41

the solvent will be attracted to each other but the solute will be attracted out, so there is no chance of forming a solution

Question 42

what happens if one of the cohesive forces are greater than the other? e.g. dissolving NaCl in benzene. the electrostatic forces of NaCl crystal cannot be broken by benzene

Answer 42

the bonds will not break between the solute or solvent molecules

Question 43

what happens if the adhesive forces between the two components are greater than both cohesive forces of the two components?
e.g. NaCl in water

Answer 43

then the solute will disperse and form a solution

Question 44

What are the 3 types of solvents?

Answer 44

polar solvents
non polar solvents
semi polar solvents

Question 45

What are polar solvents?

Answer 45

dilute ionic solute and other polar substances
e.g. glycerol, methanol,
Other structural features which affect the solubility are:
-if the number of polar groups is more in the solute, it will dissolve in the polar solvent.
-chain length, shorter chains are more soluble
-functional groups, OH groups more soluble
-Branching of C chain. branching increases surface so increases solubility

Question 46

What are non polar solvents?

Answer 46

they do not form H bonds
Are not able to induce ions due to low dielectric constants
can only dissolve non polar solutes

Question 47

What are semi-polar solvents?

Answer 47

act as intermediate solvents to bring abut the miscibility of polar and non polar liquids e.g. acetone increasing the solubility of water