Presentation is loading. Please wait.

Presentation is loading. Please wait.

ELECTRICITY & CHEMISTRY

Published byJulian Jaquith Modified over 9 years ago

Similar presentations

Presentation on theme: "ELECTRICITY & CHEMISTRY"— Presentation transcript:

1 ELECTRICITY & CHEMISTRY
N4 CHEMISTRY N4 CHEMISTRY ELECTRICITY & CHEMISTRY MAKING ELECTRICITY

2 ELECTRICITY & CHEMISTRY
N4 CHEMISTRY ELECTRICITY & CHEMISTRY N4 CHEMISTRY MAKING ELECTRICITY After completing this topic you should be able to : State that, in a battery, electricity comes from a chemical reaction. State that electricity passing along metal wires is a flow of electrons. State electricity can be produced by connecting different metals together, with an electrolyte, to form a simple cell. State the voltage between different pairs of metals varies and this leads to the electrochemical series. Use the Electrochemical Series to make a prediction about: the voltage of a cell.

3 MAKING ELECTRICITY CHEMICAL REACTIONS
There are many everyday things use batteries to provide the energy to work. a radio a mobile phone a personal music player There are many kinds of battery, but they all provide a portable source of electricity. The electricity from a battery is made as a result of a chemical reaction.

4 LEAD - ACID BATTERY (a) CHARGING
The first type of batteries invented was made from sulphuric acid and lead plates. + ve - ve d.c. supply (a) CHARGING During charging electrical energy is being fed into the battery. Bubbles of gas are produced on the electrodes. Hydrogen is produced at the negative electrode and oxygen at the positive electrode. Lead plates During charging ELECTRICAL ENERGY is converted to CHEMICAL ENERGY. Sulfuric acid

5 (b) DISCHARGING The bulb lights up for a short time.
During charging CHEMICAL ENERGY is converted to ELECTRICAL ENERGY. The battery stops working when the chemicals are used up. Lead plates The lead-acid battery is an example of a RECHARGEABLE battery, as the chemicals which produce the electricity can be replaced again by CHARGING the battery. Sulphuric acid

6 ELECTRIC CURRENT When a metal conducts electricity, electrons move through the metal. In an electrical circuit involving a battery, electrons are made by a reaction at the negative terminal of the battery. e- e- e- e- The electrons move around the circuit and are taken in by a reaction at the positive terminal of the battery

7 Salt solution sodium chloride
SIMPLE CELLS JOINING METALS A simple cell (or battery) can made by joining zinc to copper. Ammeter An electric current flows from the zinc electrode to the copper electrode. A For zinc atoms to produce electrons they have to change into zinc ions. Zinc electrode Copper electrode e- e- zinc atom zinc ion 2 electrons + Zn Zn2+ + 2e- The zinc atoms are OXIDISED as each atom loses 2 electrons. Salt solution sodium chloride The salt solution is an electrolyte. The ions in the salt solution completes the circuit.

8 DICTIONARY - ELECTROLYTE
Compounds which conduct electricity when molten or in aqueous solution are called ELECTROLYTES. All ionic compounds are electrolytes. All cells (batteries) require electrolytes. A simple battery is called a CELL. All metals change into their ions, giving off electrons when they react. However, different metals are not equally good at changing into their ions. The electrons, which come off the metal atoms, build up on the surface of the metal. In the zinc – copper cell the zinc was better at giving off electrons than copper. Measuring the voltage between two different metals gives a measure of the difference in their abilities to change in to their ions and give off electrons.

9 CELL VOLTAGE V Mg Zn Fe Sn
This experiment compares the ability of different metals with copper to change into their ions and give off electrons. The voltage of different metals with copper is measured. V METAL VOLTAGE (V) Other metal The metal which gives the largest voltage is magnesium. Filter paper soaked in salt solution. Copper This series of results is called an ELECTROCHEMICAL SERIES. The order of ability of the metals to give electrons to copper: BEST WORST Mg Zn Fe Sn

10 ELECTROCHEMICAL SERIES RULE 1
DATA BOOKLET The data booklet contains a table called “ELECTROCHEMICAL SERIES (Reduction Reactions).” The table lists the metals in order of their ability to give away electrons. Lithium is at the top – this means lithium atoms are good at losing electrons. Gold is at the bottom showing gold is the least able at losing electrons. ELECTROCHEMICAL SERIES RULE 1 The further the metals are apart in the Electrochemical Series the larger the voltage. Complete the ELECTROCHEMICAL SERIES RULE 1 examples on page 3 of the Metal Chemistry and Electricity & Chemistry Examples Booklet.

Download ppt "ELECTRICITY & CHEMISTRY"

Similar presentations

Unit 10 - Electricity.

Unit 10 - Electricity.
Electricity & Magnetism at Work

Electricity & Magnetism at Work
TOPIC 5 :PORTABLE POWER Science 9: Unit D: Electrical Science and Technology.

TOPIC 5 :PORTABLE POWER Science 9: Unit D: Electrical Science and Technology.
Section 3.  Chemical energy is the energy stored in chemical compounds  In the 1780s, Luigi Galvani was studying the anatomy of a frog. He was using.

Section 3.  Chemical energy is the energy stored in chemical compounds  In the 1780s, Luigi Galvani was studying the anatomy of a frog. He was using.
Friction Contact Induction. Current Electricity What is the difference between static electricity and current electricity ? Static electricity is stationary.

Friction Contact Induction. Current Electricity What is the difference between static electricity and current electricity ? Static electricity is stationary.
Electric Potential Energy & Voltage.. Battery Battery : A battery is a combination of electrochemical cells connected together. What does an electrochemical.

Electric Potential Energy & Voltage.. Battery Battery : A battery is a combination of electrochemical cells connected together. What does an electrochemical.
Electric Current Section 2.

Electric Current Section 2.
Metals Nat 5 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37.

Metals Nat
Oxidation Reduction Reactions

Oxidation Reduction Reactions
Oxidation and Reduction TOPIC 9. REDOX REACTIONS REDOX = reduction & oxidation O 2 (g) + 2 H 2 (g)  2 H 2 O( s ) O 2 (g) + 2 H 2 (g)  2 H 2 O( s )

Oxidation and Reduction TOPIC 9. REDOX REACTIONS REDOX = reduction & oxidation O 2 (g) + 2 H 2 (g)  2 H 2 O( s ) O 2 (g) + 2 H 2 (g)  2 H 2 O( s )
ELECTROCHEMISTRY Chapter 17. W HAT IS ELECTROCHEMISTRY Electrochemistry is the science that unites electricity and chemistry. It is the study of the transfer.

ELECTROCHEMISTRY Chapter 17. W HAT IS ELECTROCHEMISTRY Electrochemistry is the science that unites electricity and chemistry. It is the study of the transfer.
After completing this topic you should be able to : State electricity can be produced in a cell by connecting two different metals in solutions of their.

After completing this topic you should be able to : State electricity can be produced in a cell by connecting two different metals in solutions of their.
Chemistry 1011 Slot 51 Chemistry 1011 TOPIC Electrochemistry TEXT REFERENCE Masterton and Hurley Chapter 18.

Chemistry 1011 Slot 51 Chemistry 1011 TOPIC Electrochemistry TEXT REFERENCE Masterton and Hurley Chapter 18.
Topic 10 : Making Electricity electrons. Electricity passing along metal wires is a flow of In a cell/battery, electricity comes from a chemical reaction.

Topic 10 : Making Electricity electrons. Electricity passing along metal wires is a flow of In a cell/battery, electricity comes from a chemical reaction.
Standard Grade Revision Unit 10 Q1. Pairs of metals are used to produce a cell. Standard Grade Chemistry (a)What is the purpose of the filter paper soaked.

Standard Grade Revision Unit 10 Q1. Pairs of metals are used to produce a cell. Standard Grade Chemistry (a)What is the purpose of the filter paper soaked.
Sources of electrical energy. The driving force in electronic circuits In Chapter 6, the idea of electromotive force was explained. The electromotive.

Sources of electrical energy. The driving force in electronic circuits In Chapter 6, the idea of electromotive force was explained. The electromotive.
DAILY QUESTIONS Circle the oxidized element, underline the reduced element. 2Sr +O 2  2SrO Fe +2 +O 2  FeO Define what happens to elements that are oxidized.

DAILY QUESTIONS Circle the oxidized element, underline the reduced element. 2Sr +O 2  2SrO Fe +2 +O 2  FeO Define what happens to elements that are oxidized.
ELECTROCHEMISTRY Chapter 17. W HAT IS ELECTROCHEMISTRY Electrochemistry is the science that unites electricity and chemistry. It is the study of the transfer.

ELECTROCHEMISTRY Chapter 17. W HAT IS ELECTROCHEMISTRY Electrochemistry is the science that unites electricity and chemistry. It is the study of the transfer.
Making electricity A cell is an arrangement where chemical energy is converted into electrical energy. In a cell a pair of different metals are connected.

Making electricity A cell is an arrangement where chemical energy is converted into electrical energy. In a cell a pair of different metals are connected.
Ch. 8: Ohm’s Law Current, Voltage & Resistance. Electric potential Energy increases when unlike charges move further apart Electric potential difference.

Ch. 8: Ohm’s Law Current, Voltage & Resistance. Electric potential Energy increases when unlike charges move further apart Electric potential difference.

Similar presentations

Ads by Google