Properties of Solution PDF

Summary

This document is a presentation on the properties of Solutions, including their nature, types, formation, and concentrations. It covers topics such as solvation, solubility, and different ways of expressing concentrations of solutions like percentage by mass, percentage by volume, molarity, and molality.

Full Transcript

Properties of Solution
Prepared by:
DARYL D. VALDEZ, MST
 Nature of Solutions
▪ Solutions are homogenous
mixtures.
▪ They have uniform
composition all throughout.
– Ex. Salt and water solution
▪ Solution is composed of
solute and solvent.
 Terms to remember
▪ Solute-a substance in which the solute dissolves.
▪ Solvent- a substance that dissolves a solute.
▪ Soluble- a substance that dissolves in another substance
is said to be soluble.
▪ Miscible- liquids which are completely soluble in each
other are said to be miscible.
▪ Aqueous solution -a solution in which the solvent is
water.
Types of Solution
Type of solution Example solvent Solute
GAS

Gas in Gas Air Nitrogen (Gas) Oxygen (Gas)

LIQUID

Gas in liquid Carbonated water Water (liquid) Carbon dioxide (gas)

Gas in liquid Ocean water Water (liquid) Oxygen Gas (gas)

Liquid in liquid Antifreeze Water (liquid) Ethylene glycol (liquid)

Liquid in liquid Vinegar Water (liquid) Acetic acid (liquid)

SOLID

Liquid in solid Dental Amalgam Silver (solid) Mercury (liquid)

Solid in solid Steel Iron (solid) Carbon (solid)
The Formation of Solutions

How solute dissolves in solvent like water?
▪ Solvation-is the interaction of solvent with
the dissolved solute which leads to
stabilization of the solute species in the
solution. It occurs differently in:
– Ionic Compounds in Water
– Non Ionic Compounds in Water
 Ionic Compounds in Aqueous Solution
▪ Dissolution- the act or process of dissolving into parts or elements.
▪ Solvation- When solvent particles surround the solute particles.
Covalent polar Molecules in Aqueous Solution
▪ “Like dissolves like” - meaning a polar molecule will only dissolve a
polar molecule, and non-polar dissolves non-polar molecule.
How about Non-polar molecules?
Concentration of Solution
 Concentration
Concentration is simply the amount
of solute that is present in a given
quantity of the solution.
A Diluted solution if it contains a
greater amount of solvent compared
to the solute.
A concentrated solution is a solution
that contains greater amount of
solute compared to the solvent.
Solubility
▪ Maximum amount of solute that will dissolve or
dissociate in a given amount of solution at specific
temperature and pressure.
Supersaturated Solution

▪ Supersaturated solution- the maximum amount of solute present in
a given amount of solvent at an elevated temperature.
Solubility of some Substances with 100grams
of water to form saturated solution at
specific temperature
Concentration of solution

Unsaturated Saturated Supersaturated
The minimum The maximum The maximum
Definition amount of solute amount of solute amount of solute
present in a given that can dissolve in a present in a given
amount of solvent at given amount of amount of solvent at
room temperature solvent at room an elevated
temperature. temperature.
It is very unstable

When solute is When solute is The solute
Description added the solute added, the solute no crystallizes when the
dissolves longer dissolves solution is cool
down.
Concentration vs. Solubility

▪ Solubility of a substance in a given solvent is the
amount of that substance which is present in a
specified quantity (usually 1 litre)
of saturated solution at a given temperature.
For example, the solubility of sodium chloride in water is
36 grams per 100 grams of the solution at 20 degree
Celcius. This means that if you take 100 grams of the salt
solution and evaporate off all the water, you will get 36
grams of sodium chloride.
Concentration vs. Solubility

▪ Concentration is simply the amount of solute that is present in a
given quantity of the solution.
▪ For example, you can think of various salt solutions having
different amounts of salt in it.
▪ (1) A solution having 1.5 grams of NaCl in 100 grams of solution
OR
▪ (2) A solution having 5 grams of NaCl in 100 grams of solution OR
▪ (3) A solution having 36 grams of NaCl in 100 grams of solution
etc.
Concentration vs. Solubility

Solubility is the maximum amount of the solute that
can be dissolved in a given amount of the solvent at
specific temperature.
While Concentration is amount of solute(which is
usually less than maximum amount of solute that can
be dissolved in solvent) dissolved in a unit quantity
(mass or volume ) of a solution.
Solubility of some Substances
Quantitative Measures of Concentration of
Solution

▪ Concentration of solution - Refers to the relative amount
of solute dissolved in a given amount of solution.
▪ There are many ways of expressing the quantity of
solute present in a given amount of solvent.
–Percent by Mass and percent by volume
–Mole Fraction
–Molarity
–Molality
Percent by Mass and Volume
5% acidity

5 grams of acetic
acid (solute)
dissolve in 95
grams water to
make 100 grams
of vinegar solution
Percent by Mass and Volume

70% solution

70 mL of Isopropyl
alcohol diluted with
30 mL purified water
by volume
 Percent by Mass and Volume
▪ The concentration of Gold
Jewellery is expressed in Carat.
▪ 24K Gold is 100% pure Gold with
no other metals.
▪ 18K Gold is 75 % gold and
25 % other metals,
often copper.
Percent by Mass
30 grams sugar

▪ This expresses the mass of solute per 100g 30% of solution.
Mass of solution is equal to the mass of solute plus the
mass of solvent.
100 grams solution
▪ Ex. In 100g solution of water and sugar, if there are 30
In 100% solution,
grams of sugar, there will be 7ograms of water. The formula
30% is solute
for percent by mass is:
Percent by Volume

▪ If a solution involves a solute and a
solvent that are both liquids, then
percent by volume is used instead of by
mass.
 Sample Problem: Percent by Mass
What is the percent by
mass of a solute with
45.0 g of HCl in 200.0 g
solution.
Given:
Mass solute 45.0 g HCl
Mass of solution 200.0g
Required:
Percent by Mass ▪ Meaning 22.5% of the solution is the solute
HCl.
 Sample Problem: Percent by Mass
What is the percent by
Mass and ppm of the
following solutions:
1. 30g of NaCl and 105g of
water.
Given:
Mass of solute 30.0g NaCl
Mass of solution 30 g NaCl +
105 g water = 135 grams
Required: Percent by Mass
and ppm
 Sample Problem: Percent by Mass
How many grams of
Sodium Chloride are
present in 250g Salt
Solution containing 9%
sodium chloride
Given:
250mL (salt solution)
9% of percent
concentration of NaCl or
in 100g of solution 9g of
it is NaCl
Required: Mass of solute
 Sample Problem: Percent by Volume

A 300 mL sample of wine
was found to contain 37.5mL
ethanol. What is the
percentage by volume
concentration of ethanol in
the wine bottle?
Given:
Volume of solute- 37.5mL
Volume of solution-300mL
Required: Percent by
volume
 Sample Problem: Percent by Volume

A bottle of Hydrogen Peroxide
is labelled as 3% by volume.
How many mL of Hydrogen
Peroxide are in 500mL bottle
of this solution?
Given:
500mL solution
3% percent concentration
H2O2
Required: Volume of Solute
Molarity
▪ Molarity (M) is the most common way of expressing the
concentration of a solution.
▪ It is defined as the ratio of the number of moles of solute per
Liter of Solution.

▪ A 3M (3 molar) of NaOH and water solution means that there
are three moles NaOH in one liter of solution or 3 moles
NaOH/Liter solution.
What is a mole again?

▪ 1 mole of a substance is equivalent to
6.02 x 1023 also known as Avogrado’s
number.
 Molarity
It is defined as the ratio
of the number of moles
of solute per Liter of
Solution.
Molarity is important to
figure out whether a
solution is dilute or
concentrated.
Sample Problem

Since the volume is expressed in mL it
Calculate the Molarity should be converted to Liter because,
of the solution with 0.2 molarity measures moles/Liter.
moles NaOH in 100mL
solution. The given number of moles is divided by
the given volume of 100 mL and then
converted to Liter.
Sample Problem

Calculate the Molarity
of the solution with
5.0g CaCl2 in 250mL
solution.
 Molar Mass

▪ The mass of one mole of a substance.
B. Identify the molar mass of H2O.

H- 2(1.00)g it means in 1 mole of H2O
O- 1(16.00)g the mass is 18.00 g
18.00 g/mole
Get the molar mass of the following

CaCl2 - 40𝑔 + 2 35𝑔 = 110𝑔
meaning 1 mole of CaCl2 is 110g
4FeS2
4 55.85 + 2(32.05) = 479.8𝑔/𝑚𝑜𝑙
(NH2)2CO

2 14 + 2(1) + 12 + 16 = 60 𝑔/𝑚𝑜𝑙
Sample Problem

Calculate the Molarity
of the solution with
5.0g CaCl2 in 250mL
solution.
Sample Problem

Calculate the number
of moles of solute in
each 100mL of 0.5M
H2SO4.
Given:
Molarity=0.5M or
0.5mol/L
Liter of Solution=100mL
Molality
▪ Molality (m) of a solution is defined as the number of moles of solute
per kilogram of solvent.
▪ It can also be mathematically expressed as

▪ A 3m solution also means 3 moles solute/kilogram solvent.
▪ Although molarity and molality are quite similar, notice that
molarity is defined in terms of the volume of a solution, whereas
molality is defined in terms of the mass of a solvent only.
 What’s the point of Molality?

Concentrations expressed
in molality are used when
studying properties of
solutions related to vapor
pressure and temperature
changes. Molality is
used because its value
does not change with
changes in temperature
Sample Problem

Calculate the molality
of the solution with 0.5
moles of H3PO4
(molar mass=106g) in
250g of water.
 Difference of Molarity and Molality

Molarity- It is defined as the ▪ Molality (m) of a solution is
ratio of the number of moles of defined as the number of moles
solute per Liter of Solution. of solute per kilogram of
solvent.
Mole Fraction
▪ Mole Fraction (X) is the ratio of the number of moles of
one component 𝑛𝑎 to the total number of moles in the
solution (𝑛𝑎 + 𝑛𝑏 ).
 Sample Problem: Mole Fraction
A solution is made by
dissolving 25 g NaSO4
in 65.0 g H2O.
Calculate the mole
fraction of the solute
and the solvent.
Given:
Amount of solute: 25g NaSO4

Amount of solvent: 65gH2O
END