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Static Electricity Slide 2 Lesson Structure Part 1 Types of charges and SI unit Like charges repel, unlike charges attract Part 2: Electric Field Definition Drawing electric field of a single point charge Drawing electric field between two point charges Part 3: Electrostatic Charging By rubbing / friction By induction Part 4: Hazards & Uses of Electrostatic charging Hazards Lightning etc. Application Photocopier etc. Slide 3 Learning objectives In this section, you ll be able to: State that there are positive and negative electric charges and charges are measured in coulombs (C). State that like charges repel, unlike charges attract Slide 4 Electric charge Electric charge is measured in coulombs (C) E Examples of positive charges Examples of negative charges Positive ions Negative ions Electrons (more common) For info: A proton carries a charge of 1.610 -19 C An electron carries a charge of -1.610 -19 C Slide 5 + - + + - - Like charges Unlike charges repelattract Electric charge Slide 6 Attraction between charged objects and neutral objects A charged object can also attract a neutral conducting object. This is because electrons in a neutral object can be attracted or repelled by a charged object and move to the side closer to the charged object. Charging by induction works on this principle, which you will learn in later part of this topic. Slide 7 Attraction between charged objects and neutral objects Electrons are attracted to the side nearest to the positively charged rod. The unlike charges attract. negatively Electrons are repelled to the side furthest from the negatively charged rod. The unlike charges attract. The object on the insulating stand is neutral, with equal number of positive and negative charges. A charged rod is brought near it. Slide 8 M, N, O and P are small spheres which behave as follows: M repels N; M attracts O and O repels P. If P is positively charged, _____________. A N must be positively charged B N must be negatively charged C N must be positively charged or neutral D N must be negatively charged or neutral Example Slide 9 Lesson from the example: A charged object can attract an uncharged/neutral object But a charged object cannot repel an uncharged/neutral object Slide 10 Learning objectives In this section, you ll be able to: Describe an electric field as a region in which an electric charge experiences a force Draw the electric field of an isolated point charge Draw the electric field pattern between two isolated point charges Slide 11 Electric Field The attractive or repulsive forces between charges is known as an electric force. An electric force is an example of a non- contact force. An electric field is a region where electric charge experiences an electric force. Slide 12 Representing an electric field An electric field can be represented by lines with arrows The direction of the field lines gives the direction of the force that acts on a small positive charge Slide 13 Things to note when drawing field lines Lines are to originate from the charge Lines not to cross each other Arrows are to be drawn on centre of each line Arrows are to point away from a positive charge, and towards a negative charge The lines should be close to each other when near the charge, and get more apart as the lines get further from the charge. (see next slide) Slide 14 Strength of electric Field The strength of an electric field is indicated by how close the field lines are to each other. Closer field lines indicate a stronger electric field Field lines further apart indicate a weaker electric field Slide 15 Electric field between 2 isolated point charges Eg. Between two unlike charges Slide 16 Between two unlike charges Slide 17 Between two positive charges Slide 18 Note region X where an electric charge will not experience any electric force if placed there. X Slide 19 Between two negative charges Slide 20 Practice Task 16a Task 1: GLM Pg 270 Qn 2(a) and 2(d) Task 2: GLM Pg 281 Qn 5 Task 3: GLM Pg 270 Qn 2(c), 3(a) 3(c) Slide 21 Summary An electric field is a region in which an electric charge experiences a force You must be able to draw the electric field of a point charge and between two point charges. Slide 22 Quiz 16a See attached Slide 23 Assignment 16a TYS Topic 16 Paper 1: Qn 5, 6 Supplementary worksheet on drawing of electric field Slide 24 Learning objectives In this section, you ll be able to: show understanding that electrostatic charging by rubbing/friction involves a transfer of electrons Slide 25 All matter are made of atoms, and electrons are present in the region of space outside the nucleus. Electrons can be delocalised from the atom. Charges in objects Slide 26 Which of the following statements is/are true? a)A positively charged object has lost electrons b)A positively charged object has gained protons c)A negatively charged object has lost protons d)A negatively charged object has gained electrons and lost protons Note: Only electrons can move or be transferred from one object to another. When an electron is removed from an atom, we say that the atom is positively charged. When an electron is added to an atom, we say that the atom is negatively charged. Slide 27 Electrostatic Charging Electrostatic charging means to give an object a net charge There are two ways: o Electrostatic charging by rubbing for insulators o Electrostatic charging by induction for conductors What are insulators and conductors? Slide 28 Insulators Insulators are materials where electrons are not free to move about inside the material. E.g. glass, silk, perspex and wool Insulators do not conduct electricity and are charged by rubbing. The charge remains at the region where it was transferred. Slide 29 Conductors are materials that allow electrons to move freely within them. E.g. metals like copper, iron or steel They are able to conduct electricity and are charged by induction. When electrons are gained or lost in a conductor, the electrons will be redistributed. Conductors Slide 30 Videos https://www.youtube.com/wat ch?v=aO-phqmyqdY Slide 31 Demonstration Comb and paper pieces Slide 32 Examples of static around us Slide 33 Electrostatic charging by rubbing/ friction Rubbing transfers electrons from one object to another. When a glass rod and a piece of silk are rubbed together, some electrons from the surface atoms of glass is transferred to the silk. Slide 34 Electrostatic charging between some common materials Slide 35 Practice Task 16b Task 1: GLM Pg 278 Qn 1 (a),(b) and (c) Slide 36 Learning objectives In this section, you ll be able to: Describe experiments to show electrostatic charging by induction Slide 37 Induction is the process of charging without any contact with the charging body Insulators cannot be charged by induction. Electrostatic charging by induction Slide 38 Attraction between charged objects and neutral objects Recall an earlier example The conducting object is neutral and on an insulating stand. Electrons are attracted to the side nearest to the positively charged rod. We say that a negative charge is induced by the rod. Slide 39 Animation Slide 40 Charging a conductor by induction Step 1: Bring a positively charged glass rod near the metal conductor on an insulating stand. The free electrons in the metal will be drawn towards the side nearer the positively charged glass rod. Slide 41 Step 2: Without removing the glass rod, earth the positively charged side of the metal conductor by touching it with your hand. (Earthing will be explained in next section) Electrons will flow from the ground into the conductor. Charging a conductor by induction conductor Slide 42 Step 3: With the glass rod still in place, remove your hand from the conductor. Charging a conductor by induction Slide 43 Step 4: Remove the glass rod The conductor is now negatively charged Charging a conductor by induction Slide 44 Discharging charged conductors (not specifically in syllabus but good to know) Slide 45 A charged conductor can be neutralised by earthing it. To earth a charged conductor is to provide a path for the excess electrons to flow away or flow to the conductor. Discharging a charged conductor Slide 46 Earthing Slide 47 Practice Task 16c Task 1: GLM Pg 281 Qn 9 Task 2: GLM Pg 283 Qn 4 Task 3: GLM Pg 278 Qn 2(a),(b) and (c) (Note: 2(d) shows electric field between 2 plates, which is not specifically in the syllabus) Slide 48 Summary There are two ways to charge an object: o Rubbing/friction for insulators o induction for conductors In both ways, the net charge is always due to movement of electrons. Charging through rubbing/friction involves transfer of electrons through contact, whereas for induction, no contact is needed. Slide 49 Quiz 16b See attached Slide 50 Assignment 16b TYS Topic 16 Paper 1: Q1, 3, 4, 7, 9 Paper 2 section A: Q1, Q4(a) and (b) Slide 51 Learning objectives In this section, you ll be able to: describe examples where electrostatic charging may be a potential hazard Slide 52 1.Lightning Thunderclouds are charged by friction between the water molecules in the thunderclouds and air molecules. It then ionises the air and the ionised air provides a conducting path for electric charge to be discharged to the nearest or sharpest object on the ground. Hazards of electrostatics Slide 53 If a negatively charged cloud passes overhead, it induces a positive charge at the top of the lightning conductor. The point then repels positive ions to the cloud to neutralise it,so it is less likely to produce a lightning flash The electrons that are attracted to the conductor travel down it to the earth. An electric current flows through the conductor. Slide 54 2.Electrostatic discharge Excessive charges may build up due to friction Electronic equipment, such as computer boards and hard drive, can be easily damaged. Such equipments are usually packed in antistatic packaging materials. Hazards of electrostatics Slide 55 Video https://www.youtube.c om/watch?v=T6VKx mUPb3g Slide 56 Learning objectives In this section, you ll be able to: describe the use of electrostatic charging in a photocopier, and apply the use of electrostatic charging to new situations. Slide 57 Practical applications of electrostatics 1.Photocopier (Compulsory to know) 2.Laser printer (Refer to textbook) 3.Spray painting 4.Electrostatic precipitator Slide 58 Photocopier https://www.youtube.com/wat ch?v=MJ5ghlTdF9k Slide 59 How the Photocopier works A photocopier uses electrostatic charge to produce a copy. The original (the page you want copied) is placed onto a sheet of glass. An image of this page is projected onto a positively charged drum. The drum has a coating that conducts electricity when light falls on it. The parts of the drum which are lit by the projected image lose their electrostatic charge when they start to conduct. These are the parts where there are no image. Slide 60 How the Photocopier works A black powder (called toner) is negatively charged/neutral. The toner is attracted to the positively charged parts of the drum. The drum rotates and rolls against a piece of copier paper. The toner is transferred from the drum to the paper making a black and white image of the original. Finally, the paper is heated which makes the toner stick to it. Slide 61 As the spray leaves the nozzle, the particles of paint become charged by friction. The paint particles contain like charges thus they spread out when they are sprayed on a car body. The charged paint particles will be attracted to the metallic car body. Spray painting Slide 62 Coal-burning power stations produce huge amounts of smoke pollution. The smoke is a cloud of small dust particles or ash. Some thin wires are stretched across the centre of the chimney. These wires are charged and cause the gas around them to be ionised. Because of this, the smoke particles become negatively charged. They are repelled by the wire towards the earthed metal plates, where the dust sticks. Electrostatic precipitator Slide 63 Summary There are hazards and applications for electrostatic charging: Hazards o Lightning, Electrostatic discharge etc. Applications o Photocopier (compulsory), spray painting, precipitator etc. Slide 64 Quiz 16c See attached Slide 65 Assignment 16c TYS Topic 16 Paper 2 Section A: Q3(b), Q5(c) Paper 2 Section B: Q1(b)