100% satisfaction guarantee Immediately available after payment Both online and in PDF No strings attached
logo-home
Previously searched by you
Previously searched by you
logo
Summary Edexcel A Level Chemistry Unit 5 - Formulae, Equations and Amounts of Substance notes written by a 3A* Imperial College London Medicine Student $3.90   Add to cart
Quickly navigate to
Preview
  2.  
  3. PEARSON (PEARSON)
  4.  
  5. Chemistry 2015
  6.  
  7. Unit 5 - Formulae, Equations and Amounts of Substance

Summary

Summary Edexcel A Level Chemistry Unit 5 - Formulae, Equations and Amounts of Substance notes written by a 3A* Imperial College London Medicine Student
 7 views  0 purchase
  • Course
  • Unit 5 - Formulae, Equations and Amounts of Substance
  • Institution
  • PEARSON (PEARSON)
  • Book
  • George Facer\'s Edexcel A Level Chemistry Student Book 1

Detailed notes on Unit 5 - Formulae, Equations and Amounts of Substance covering all the specification points. This allowed me to achieve an A* in chemistry. Covers formulae, definitions, empirical formula, calculations of molar mass, ionic compounds and equations, chemical equations and balancing,...

[Show more]

Preview 5 out of 19  pages

Document information

  • No
  • Chapter 8 formulae, equations and moles (topic 5) and chapter 9 calculations from chemical equations
  • March 26, 2023
  • 19
  • 2022/2023
  • Summary

Subjects

  • moles
  • formulae
  • molecular formula
  • molar mass
  • empirical formula
  • ionic compounds
  • chemical equations
  • state symbols
  • mole calculations
  • conversions
  • significant figures
  • volume
  • gas
  • percentage yield
  • atom econom

Connected book

book image

Book Title:

Author(s):

  • Edition:
  • ISBN:
  • Edition:

More summaries for

  • A Level Chemistry Edexcel Unit 8 - Energetics I notes written by a 3A* Imperial College London Medicine Student
  • A Level Edexcel Chemistry Unit 7 - Modern Analytical Techniques I notes written by a 3A* Imperial College London Medicine Student
  • A Level Edexcel Unit 6 - Organic Chemistry I notes written by a 3A* Imperial College London Medicine Student
All for this textbook (8)

Written for

  • A/AS Level
  • PEARSON (PEARSON)
  • Chemistry 2015
  • Unit 5 - Formulae, Equations and Amounts of Substance
All documents for this subject (6)

Seller

avatar-seller
thomaswong180805

Reviews received

Content preview


5-Formulae, Equations and
Substances
Formulae
Molar Mass, Mr
Empirical Formula
Calculation from Percentage Composition
Calculation from Masses on Combustion
Molecular Formula from Empirical Formula
Calculation of Molar Mass
Ionic Compounds
Cations
Anions
Chemical Equations
State Symbols
Solubility Rules
Ionic Equations
Mole Calculations
Ideal Gas Calculation
Water of Crystallisation Calculations
Mole to Number of Particles
Calculations from Chemical Equations
Mass and Volume Calculations
Mass to Mass Calculations
Volume of Gas Calculations



5-Formulae, Equations and Substances 1

, Mass to Volume of Gas Calculations
Volume of Gas to Volume of Another Gas
Percentage Yield
Atom Economy
Percentage Composition
Limiting Reagent
Concentration
Titrations
Back Titrations
Minimising Errors in Titrations
Errors due to Apparatus
Errors due to Poor Technique




Formulae
What is the Amount of Substances measured in?
Moles


The molecular formula of a compound shows the number of
atoms of each element in one molecule of the substance.

E.g. the molecular formula of glucose is C6 H12 O6 .


Molar Mass, Mr

Molar mass is the mass of 1 mole of the substance. The units
are g mol− 1 .

The molar mass is found by adding the relative atomic masses of all the atoms
present in the formula.

E.g. glucose C6 H12 O6 - carbon = 12, hydrogen = 1 and oxygen = 16.

Molar mass of glucose = (6x12) + (12x1) + (6x16) = 180 g mol− 1 .


Empirical Formula
What is the Empirical Formula?

The simplest whole number ratio of the atoms of each element in the substance.



5-Formulae, Equations and Substances 2

, E.g. the empirical formula of glucose is CH2 O.

Calculation from Percentage Composition
The mass of an element can be found from the mass of a substance. The values
can be converted to percentage by mass. This can be used to find the empirical
formula.

1. Divide each percentage by the RAM of the element - this is the number of moles
of each element in 100g of the compound.

2. Divide these results by the smallest value obtained - this gives the simple mole
ratio.

3. If the ratio are not integers, then times the number by 2 or 3.

Example: A compound contained 34.3% sodium, 17.9% carbon and 47.8%
oxygen by mass.


Empirical Formula from %


Element % Divide by RAM Divide by the smallest Ratio

Sodium 34.3 34.3/23 = 1.49 1.49/1.49 = 1 1
Carbon 17.9 17.9/12 = 1.49 1.49/149 = 2 1

Oxygen 47.8 47.8/16 = 2.99 2.99/1.49 = 2.01 = 2 2


Calculation from Masses on Combustion
The masses of carbon dioxide and water produced when a known mass of a
substance is burnt are measured.

The mass of carbon in carbon dioxide is calculated as mass of CO2 x 12/44.

The mass of hydrogen is mass of water x 2/18.

The percentage of carbon and hydrogen are calculated and any oxygen in the
compound is found by subtraction.



Example: 2.22g of an organic compound X containing carbon, hydrogen and
oxygen was burnt in excess air and 3.26g of carbon dioxide and 1.33g of water
were obtained. Calculate the empirical formula of compound X.

Mass of carbon = 3.26 x 12/44 = 0.889g



5-Formulae, Equations and Substances 3

, Mass of hydrogen = 1.33 x 2/18 = 0.148g

Mass of oxygen = 2.22 - 0.889 - 0.148 = 1.18g

% carbon = 0.889 x 100/2.22 = 40%

% hydrogen = 0.148 x 100/2.22 = 6.67%

% oxygen = 1.18 x 100/2.22 = 53.2%


Empirical Formula from Combustion


Element % Divide by RAM Divide by the smallest Ratio
C 40 40/12 = 3.3 3.3/3.3 = 1 1

H 6.67 6.67/1 = 6.67 6.67/3.3 = 2 2

O 53.2 53.2/16 = 3.3 3.3/3.3 = 1 1

The empirical formula of X is CH2 O.


Molecular Formula from Empirical Formula
If the molar mass is known, the molecular formula can be derived from the
empirical formula.

First the empirical mass is worked out. if this is the same as the molar mass, the
molecular and empirical formula are the same.

If they are not the same, they will be in a simple ratio to each other.

To find the ratio, divide the molar mass by the empirical mass.

E.g. molar mass / empirical mass = 60/30 = 2



Example: A compound contains 38.7% calcium, 20% phosphorous and 41.3%
oxygen by mass. The molar mass of the compound is 310 g mol− 1 . Calculate its
empirical and molecular formula.


Empirical Formula


Divide by Divide by the Multiply by 2 to find the whole
Element
RAM smallest number ratio
38.7/40.1 =
Calcium 0.97/0.65 = 1.5 1.5 x 2 = 3
0.97



5-Formulae, Equations and Substances 4

, Divide by Divide by the Multiply by 2 to find the whole
Element
RAM smallest number ratio

Phosphorous 20/31 = 0.65 0.65/0.65 = 1 1x2=2

Oxygen 41.3/16 = 2.58 2.58/0.65 = 4 4x2=8

The empirical formula is Ca3 P2 O8 .

Empirical mass = (3 x 40.1) + (2 x 31) + (8 x 16) = 310.3

This is numerically the same as the molar mass. Therefore, the molecular
formula is Ca3 P2 O8 .


Calculation of Molar Mass
The Mr of liquids and gases can be found from mass spectra - measuring the
m/z value of the molecular ion peak.

Can also be calculated with the ideal gas equation - pV = nRT


Ionic Compounds
Made up of cations and anions.

Aqueous solutions of metal compounds are ionic.


Cations
A positive ion formed by the loss of
electrons from an atom - metals form
cations.

Roman numerals - charge on the cation.



Anions
A negative ion formed by the gain of electrons - some non-metals form anions.

Polyatomic anions contain more than one element - CO3 2− .




5-Formulae, Equations and Substances 5

The benefits of buying summaries with Stuvia:

Guaranteed quality through customer reviews

Guaranteed quality through customer reviews

Stuvia customers have reviewed more than 700,000 summaries. This how you know that you are buying the best documents.

Quick and easy check-out

Quick and easy check-out

You can quickly pay through credit card or Stuvia-credit for the summaries. There is no membership needed.

Focus on what matters

Focus on what matters

Your fellow students write the study notes themselves, which is why the documents are always reliable and up-to-date. This ensures you quickly get to the core!

Frequently asked questions

What do I get when I buy this document?

You get a PDF, available immediately after your purchase. The purchased document is accessible anytime, anywhere and indefinitely through your profile.

Satisfaction guarantee: how does it work?

Our satisfaction guarantee ensures that you always find a study document that suits you well. You fill out a form, and our customer service team takes care of the rest.

Who am I buying these notes from?

Stuvia is a marketplace, so you are not buying this document from us, but from seller thomaswong180805. Stuvia facilitates payment to the seller.

Will I be stuck with a subscription?

No, you only buy these notes for $3.90. You're not tied to anything after your purchase.

Can Stuvia be trusted?

4.6 stars on Google & Trustpilot (+1000 reviews)

80796 documents were sold in the last 30 days

Founded in 2010, the go-to place to buy study notes for 14 years now

Start selling

Recently viewed by you

Summary ·

(0)

Bio 1100 Exam 3 Review

$3.90
  • (0)
  Add to cart