ELECTRICITY YEAR 9 SCIENCE. TEACHER CONTACTS Mrs Schoenmaker Location: Science Staffroom E05.

Slides:

Advertisements

Similar presentations

Electricity & Magnetism Physical Science. Static Electricity Atoms are made of charged particles: – Electrons: orbit the nucleus of the atom and have.

Advertisements

Great Ideas in Science: Lecture 4 Electricity and Magnetism Professor Robert Hazen UNIV 301 Great Idea: Electricity and magnetism are two different aspects.

Copyright © 2009 Pearson Education, Inc. Chapter 25: Electric Currents & Resistance (in the book by Giancoli). Chapter 27 in our book.

Lecture 3 Ohm: The Man, The Law, The Field EC 2 Polikar.

Foundations of Physics

 Physics 12.  Minutephysics…. 

Nineteenth century produced a revolution in understanding of electricity and magnetism Culminated in the work of James Maxwell. Electricity and magnetism.

Electricity Foundations of Physics. Electricity The movement of charge from one place to another Requires energy to move the charge Also requires conductors.

History of Electromagnetic Forces

Unit: Energy and Control- Electricity.  Some fish use electricity to stun their prey. The most famous is the electric eel which can produce more than.

Telecommunication Pioneers Day 3. Benjamin Franklin b 1747 Leydn jar was the first capacitor b 1752 discovers that electricity has a positive and a negative.

Basic Electronics Concepts & Components Frank Shapleigh.

The Control of Electricity in Circuits 10.2, 10.3 and 10.5.

Chapter 18 Electric Currents.

Magnetism and the Earth Lightning and Electrostatics

LINDSAY BRENNAN KRISTINA TRASE

Shockingly Brief yet Rich History of electrochemistry Galvani – frog legs~1780 Volta – battery~1800 Davy- electrolysis~1820.

Unit: Energy and Control- Electricity.  English Scientist William Sturgeon invented the first electromagnet in He wrapped a coil of wire around.

ELECTRICITY and MAGNETISM.  Several thousand years ago, the ancient Greeks observed that a substance called amber attracted bits of lightweight material,

Electric Current 19-1 page 694. Current and charge movement Electricity did not become an integral part of our lives until scientists learned how to control.

NEW CHAPTER Electricity CHAPTER the BIG idea Moving electric charges transfer energy. Materials can become electrically charged. Charges can move from.

Current Electricity: The Voltaic Cell Battery (electricity) - Wikipedia, the free encyclopedia Battery (electricity) - Wikipedia, the free encyclopedia.

Foundations of Physical Science Unit 3: Electricity and Magnetism.

Chapter 17 & 18 Discovery Notes.

Electrical Resistance and Ohm’s Law Electric circuits are used to convert electrical energy into some other form of energy we need.

Electrical Potential (Voltage) Answers (Page 303)

Chapter 34 Electric Current Voltage is an “electrical pressure that can produce a flow of charge, or current, within a conductor. The flow is restrained.

Lesson 7 Electricity. in 1835, Samuel Morse proved that signals could be transmitted by wire. He used pulses of current to deflect an electromagnet. Samuel.

Electricity and Magnetism 1Static electricity 2Electric Circuits and Electric Current 3 Ohm’s Law and Resistance 4 Series and Parallel Circuits 5Electric.

Early Electrochemistry

PSAA Curriculum Unit Physical Science Systems. Problem Area Energy and Power Systems.

1 Unity The unification of distinct areas of physics leads to an explosion in the growth of knowledge and understanding.

4.2.3B Electrical Power What About Watts?. Power Law Moving electrons (current) requires ENERGY How much energy gets used depends on: Strength of push.

Brief History of electromagnetism. Contents 1.History 1. Ancient times. 1. Ancient times. 2. Mid-times 2. Mid-times 3. Early modern times. 3. Early modern.

Luigi Galvani ( ) “Animal electricity”. Galvanic Cells Alessandro Volta showed that chemical reactions between metal electrodes and an electrolytic.

PHSAUTOMOTIVESALSPHSAUTOMOTIVESALS Basic Electricity Circuits Ohms Law and formulas.

PS-6.6 Explain the relationships among voltage, resistance, and current in Ohm’s law. Key Concepts: Voltage: volt Resistance: ohm Current: amp Ohms law.

2 But what makes the electrons flow? Any electrical circuit requires three things 1.A source 2.A load 3.A means of transmission A definition of a current.

Current Electricity Chapter 51. Chemical energy converted to electrical energy in battery Energy is transferred There is a continuous and steady flow.

Ch Electricity II. Electric Current  Cell and Battery  Potential Difference  Current  Resistance  Ohm’s Law.

Technical English for Electrical Engineering F.Bardak Manisa Celal Bayar University Fall 2015.

Electrical Production of Sound 1Electric Circuits 2Electric Current 3Resistance 4Voltage 5Ohm’s Law 6Series and Parallel Circuits 7Electric Energy and.

SOLUTION OF ELECTRIC CIRCUIT. ELECTRIC CIRCUIT AN ELECTRIC CIRCUIT IS A CONFIGURATION OF ELECTRONIC COMPONENTS THROUGH WHICH ELECTRICITY IS MADE TO FLOW.

Ch Electricity II. Electric Current  Cell and Battery  Potential Difference  Current  Resistance  Ohm’s Law.

8.1 ELECTRIC POTENTIAL ENERGY AND VOLTAGE BC Science 9: p

Batteries Lesson 2.3. Key Concepts What was the first battery made of? How does an electrochemical cell work?

Chapter 18 Electric Currents. Why study electric current? Most electrical devices depend on electric current. For example… ◦ Light bulbs ◦ Heating elements.

INTRODUCTION TO ELECTRIC CIRCUITS All you need to be an inventor is a good imagination and a pile of junk. -Thomas Edison What we’ll cover today: 3 characteristics.

Outline 1 Electric Circuits and Electric Current 2 Ohm’s Law and Resistance 3 Series and Parallel Circuits 4 Electric Energy and Power 5 Alternating currents.

The law that the force between electric charges varies inversely with the square of the distance between the charges was proved experimentally by the British.

Electrochemical Cells Reference: Chapter 14 (pg )

Electricity 19.1 Materials can become electrically charged. 19.2

Electric Current Electric current – The net movement of electric charges in a single direction through a wire or conductor. Voltage difference – The force.

Concepts & Components Frank Shapleigh

Hans Oersted –. recognized, when working with

The Control of Electricity in Circuits

Great Ideas in Science: Lecture 4 Electricity and Magnetism

Electric Circuits.

Electric Currents & Circuits

Integrated Science C Mrs. Brostrom

Electric Currents, Resistance

Electricity 2 objectives.

13 Electric Circuits.

19.1 Electric Circuits Electricity refers to the presence of electric current in wires, motors, light bulbs, and other devices. Electric current is similar.

Electric Current 6.2.

Topic 5: Electricity and magnetism 5.3 – Electric cells

STATIC CHARGES I OR C? BATTERIES CURRENT CIRCUITS SCIENTISTS.

Electric Current 13.2.

16.2 Current and Voltage.

Presentation transcript:

ELECTRICITY YEAR 9 SCIENCE

TEACHER CONTACTS Mrs Schoenmaker Location: Science Staffroom E05

TOPICS THIS YEAR Electricity Life through the Ages Coordination and Control The Restless Earth Chemical reactions Ecology The Universe

ELECTRICITY – UNIT OVERVIEW In this unit we examine the electrical world. Electricity as a most common source of energy It is invisible, clean and quiet. Yet, it can give you a shock or kill you!

LUIGI GALVANI In 1791, was an early scientist to experiment with electricity Frogs – he wrongly hypothesized that animal electricity was produced when frogs touched to different metals

FROG EXPERIMENT

VOLTA In 1800 he explained that a chemical reaction occurs between two different metals in contact with a moist material. This reaction generates an electric current He also made the first electrochemical cell

ELECTROCHEMICAL CELL

WHAT IS AN ELECTROCHEMICAL CELL? An electrochemical cell is a device used for generating an electromotive force (voltage) and current from chemical reactions, or the reverse, inducing a chemical reaction by a flow of current. The current is caused by the reactions releasing and accepting electrons at the different ends of a conductor. A common example of an electrochemical cell is a standard 1.5-volt battery. Batteries are composed of usually multiple Galvanic cells.

YOUTUBE CLIP HEADING: Timeline of Electricity HISTORY OF ELECTRICITY eature=related eature=related ature=related ature=related eature=related eature=related

OHM’S LAWS Ohm's law states that the current through a conductor between two points is directly proportional to the potential difference across the two points. Introducing the constant of proportionality, the resistance, one arrives at the usual mathematical equation that describes this relationship

TODAY Copy and complete (CCs) Questions 1-6 Q1 – Timeline (Make this using 1 whole page)

COPY AND COMPLETE Our understanding of electricity has developed slowly. Through experiments and discoveries people learnt new knowledge. This allowed them to do further experiments and to learn and understand even more. Our knowledge of electricity comes from the contribution of many people. There is still much more to be invented and discovered. Better solar cells are needed to obtain the energy from sunlight. Electric cars are not yet practical because there are no batteries that can store enough electrical energy. Super conductors will revolutionise the electrical and electronic devices of the future.

ANSWERS 1.Draw a time line from the discovery of current electricity to the present day. Mark on it the major inventions and discoveries described in the text. 1791Galvani observed twitching of frog’s legs. 1800Volta reported chemical reactions can cause electricity. 1820sOersted linked electricity and magnetism. Ampere’s mathematics connected electricity and magnetism Ohm’s law. 1831Faraday and Henry made electricity from magnetism.(Subsequently, Faraday discovered electrolysis.) 1864Maxwell’s equations linked electricity and magnetism and he predicted electromagnetic waves. 1876Bell invented the telephone. 1877(and 1879) Edison invented the record player and electric light bulb. 1890sVacuum tubes first made.

ANSWERS 1891Storey explained the nature of electricity. 1895Marconi broadcast the first radio message. 1897Thomson proved the existence of electrons. 1947Transistors were invented. 3. Most discoveries in science are now achieved by teams of scientists working together. Give two examples of this from the text. (i)In the 1890s, teams of scientists made vacuum tubes. (ii)Transistors were invented in 1947 by a team of American physicists.

ANSWERS 4. Give two examples from the text where a discovery has resulted from an observation. Two examples are: (i) Galvani’s observations of the effect of two different metals on frog’s legs were followed soon after by Volta’s discovery of the electrochemical cell. (ii) Oersted’s observations of the movement of compass needles were followed soon after by Ampere’s discovery of the mathematical connection between electricity and magnetism. 5. Sometimes a new theory is proposed and later discoveries can support or reject it. Explain how radio broadcasting began with an unproven theory and prediction. James Clerk Maxwell had predicted the existence of electromagnetic waves, but it was, at the time, an unproven idea. However, Hertz then produced such waves and, soon after, Marconi used Hertz’s discovery to broadcast the first radio message.

ANSWERS 6. Many discoveries about electricity were made in Europe by men. Suggest some historical reasons for this. Some possible reasons are: (i) In the 18 th and 19 th centuries, women were not, for social reasons, expected to pursue professional careers. (ii) In the 18 th and 19 th centuries, the study of science was for boys and science careers were for men (the concept of females studying science and then becoming scientists was almost unthinkable in that era). (iii) Europe was the ‘seat of learning’ in the Old World at that time. The New World had barely begun.