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CHAPTER 17 Electric Charge & Stuff
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CHAPTER 17 Electric Charge & Stuff A Slide Like This Every Day Today we begin chapter 17 – Electric Charge, Coulombs Law and the Electric Field There.

Dec 15, 2015

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Yvette Setter
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Slide 2 CHAPTER 17 Electric Charge & Stuff Slide 3 A Slide Like This Every Day Today we begin chapter 17 Electric Charge, Coulombs Law and the Electric Field There will be NO QUIZ this week. Clicker use will begin on Friday. Bring your i-clicker to class every session Bring a scientific calculator ($13.00 COSTCO) If you have your clicker with you, you may use it today. There WILL be a Quiz next Friday Slide 4 Electricity Probable First Observation Electricity Slide 5 Idiot! If lightening had actually traveled down the kite string, old Ben Franklin would have been toast! Probably never happened, but good story! Slide 6 A Quick Experiment Slide 7 Allowable Predictions (Use your clicker if you have one.) A. Rods will attract each other B. Rods will repel each other C. Nothing will happen D. Something not listed above will happen Slide 8 Experiment #1 Pivot motion Rubber rod A. Rods will attract each other B. Rods will repel each other C. Nothing will happen D. Something not listed above will happen Slide 9 Experiment #2 Pivot Rubber rubbed with skin of dead rabbit Rubber rubbed with skin of dead rabbit A. Rods will attract each other B. Rods will repel each other C. Nothing will happen D. Something not listed above will happen Slide 10 The charges on the two rods are.. A. Since we treated both rods in the same way, they should be of the same type B. . different types C. I have no idea what you are asking for. D. Leave me alone Im napping! Slide 11 If you rubbed the rods longer and/or harder, do you think the effect that you see would be A. Stronger B. Weaker C. The same Slide 12 If the two rods are brought closer together, the force acting between them will get A. Stronger B. Weaker C. The same Slide 13 Definition of sorts We DEFINE the stuff that we put on the rods by the rubbing process as CHARGE. We will try to understand what charge is and how it behaves. We add to the properties of materials: MassCharge Slide 14 Experiment #3 Pivot Glass rubbed with wool A. Rods will attract each other B. Rods will repel each other C. Nothing will happen D. Something not listed above will happen Glass rubbed with wool Slide 15 Experiment #4 Pivot 1. Rods will attract each other 2. Rods will repel each other 3. Nothing will happen 4. Something not listed above will happen Glass rubbed with wool Rubber rubbed with skin of dead rabbit Slide 16 Whats Going On? All of these effects involve rubbing two surfaces together. Or pulling two surfaces apart. Something has happened to each of these objects. These objects have a new PROPERTY Other properties are mass, color We call this NEW PROPERTY.. CHARGE. There seems to be two types of charge. Slide 17 We call these two types of charge Positive Negative NEUTRAL. An object without either a (+) or (-) charge is referred to as being NEUTRAL. Slide 18 Example - Tape Slide 19 Separation Slide 20 An Example Slide 21 Effect of Charge Slide 22 We have also observed that there must be TWO kinds of charge. Call these two types positive (+) negative(-) We define the charge that winds up on the rubber rod when rubbed by the dead cat to be NEGATIVE. The charge on the glass rod or the dead cat is consequently defined as POSITIVE. Slide 23 Old Ben screwed up more than once!! ++++++++++--------- ----+++---++---+-++- Slide 24 From whence this charge ??? -+-+ Easily Removed Slide 25 Slide 26 AXON Slide 27 Slide 28 Signal propagation in neurons. Neurons are components of the nervous system of the body that transmit signals as electrical impulses travel along their length. These impulses propagate when charge suddenly rushes into and then out of a part of the neutron called an axon. Measurements have shown that, during the inflow part of this cycle, approximately enter the axon. How many coulombs of charge enter a 1.5 cm length of the axon during this process? (sodium ions) per meter, each with charge +e Slide 29 Slide 30 Materials Two kinds of materials: Insulators Electrons and Protons are tightly bound to their positions. Hard to move them around. Conductors Electrons are easily removed and moved around. Electrons are said to be MOBILE charges. There are other kinds of materials that we will not discuss: semiconductors, semi-metals Slide 31 What about a charged rod and a piece of wooden dowel?? A. Rods will attract each other B. Rods will repel each other C. Nothing will happen D. Something not listed above will happen Slide 32 Neutral (Conducting) Object - POLARIZATION Positive charge attracts negative charges. Rod becomes polarized. Negative end is closer to positive charge Distance effect causes attraction. Slide 33 Contact Transfer Q Q/2 Slide 34 Two iron spheres contain excess charge, one positive and the other negative. (a) Show how the charges are arranged on these spheres if they are very far from each other. (b) If the spheres are now brought close to each other, but do not touch, sketch how the charges will be distributed on their surfaces. (c) In part (b), show how the charges would be distributed if both spheres were negative. A Question Slide 35 Ways to charge an object Rubbing or bond breaking (same thing) Transfer Direct transfer Polarization Induction Slide 36 Quickie: How many kinds of charge are there? A. Two: +,- B. Three: +,-.neutral Slide 37 Induction Slide 38 Polarize Slide 39 Ground Slide 40 Remove Ground Slide 41 Positive ! Slide 42 Balloon Physics Slide 43 Same as before: Polarization Slide 44 WHAT HAPPENS WHEN TWO SURFACES TOUCH OR RUB? Bonding! Slide 45 The Triboelectric Series No! When two of the following materials are rubbed together under ordinary circumstances, the top listed material becomes positively charged and the lower listed material becomes negatively charged. MORE POSITIVE rabbit's fur glass mica nylon wool cat's fur silk paper cotton wood acrylic cellophane tape polystyrene polyethylene rubber balloon saran wrap MORE NEGATIVE No! Slide 46 SUMMARY: So far we have found? There are TWO types of charge. Positive Negative Like Charges Attract Un-Like charges repel The force between charges increases as they are brought closer together. This charge separation results from chemical bonds which are severed. Slide 47 Getting down to business: We will discuss the inverse square law that describes how electric charges interact via forces. This is COULOMBS LAW We will discuss the FACT that Coulomb's law is a VECTOR equation. We will add forces acting on a charge from an assembly of other charges. We will discuss the concept of FLUX and use it to derive a useful law for continuous distributions of charge with high symmetry. This is Gausss LAW Slide 48 Forces Between Charges The force between charges is along the line between them. The direction depends on the type of charges- Like Charges Repel Unlike Charges Attract The Magnitude of the force is proportional to the inverse square of the distance between the charges. Slide 49 Coulombs Law The magnitude F of the force that each of two point charges q 1 and q 2 a distance r apart exerts on the other is directly proportional to the product of charges (q 1 q 2 ) and inversely proportional to the square of the distance between them (r 2 ). The relationship is expressed symbolically as This relationship is called Coulombs law. Slide 50 Coulombs Law Slide 51 The Unit of Charge is called THE COULOMB Smallest Charge: e ( a positive number) 1.6 x 10 -19 Coul. electron charge = -e Proton charge = +e Slide 52 Slide 53 EXAMPLE Q = +12 nC. What is the magnitude of the force F on charge Q? 1.6 10-4 N +12 nC Slide 54 THE ELECTRIC FIELD Slide 55 Fields Imagine an object is placed at a particular point in space. When placed there, the object experiences a force F. We may not know WHY there is a force on the object, although we usually will. Suppose further that if we double some property of the object (mass, charge, ) then the force is found to double as well. Then the object is said to be in a force field. The strength of the field (field strength) is defined as the ratio of the force to the property that we are dealing with. Slide 56 Example Gravitational Field. Property is MASS (m). Force is m g. Field strength is defined as Force/Property Slide 57 The Gravitational Field That We Live In. m M mgmg MgMg Slide 58 Properties of a FORCE FIELD It is a property of the position in space. There is a cause but that cause may not be known. The force on an object is usually proportional to some property of an object which is placed into the field. Slide 59 Mysterious Force F Slide 60 Electric Field If a charge Q is in an electric field E then it will experience a force F. The Electric Field is defined as the force per unit charge at the point. Electric fields are caused by charges and consequently we can use Coulombs law to calculate it. For multiple charges, add the fields as VECTORS. Slide 61 Two Charges Slide 62 Doing it Q r q A Charge The spot where we want to know the Electric Field F Slide 63 General- Slide 64 Force Field Slide 65 The two Ss S uperposition S ymmetry Slide 66 What is the electric field at the center of the square array? Slide 67 The FIELD DIAGRAM Slide 68 Slide 69 Slide 70 NEW CONCEPT Slide 71 Slide 72 Slide 73 Slide 74 What is so important about FLUX?? CLOSED Surface OUTWARD Pointing Normal Slide 75 What is the TOTAL FLUX leaving a closed surface?? Slide 76 Gausss Law Gaussian Surface Slide 77 Gausss Law Slide 78 Conducting Materials Conductors Electrons are free to move. In equilibrium, all charges are a rest. If they are at rest, they arent moving! If they arent moving, there is no net force on them. If there is no net force on them, the electric field must be zero. THE ELECTRIC FIELD INSIDE A CONDUCTOR IS ZERO! Slide 79 More on Conductors Charge cannot reside in the volume of a conductor because it would repel other charges in the volume which would move and constitute a current. This is not allowed. Charge cant fall out of a conductor. Slide 80 Isolated Conductor Electric Field is ZERO in the interior of a conductor. Gauss law on surface shown Also says that the enclosed Charge must be ZERO. Again, all charge on a Conductor must reside on The SURFACE. Slide 81 Charged Conductors E=0 E - - - - - Charge Must reside on the SURFACE Very SMALL Gaussian Surface Slide 82 Isolated (Charged) Conductor with a HOLE in it. E=0 everywhere inside the conductor. So Q (total) =0 inside the hole Including the surface. Slide 83 A Spherical Conducting Shell with A Charge Inside. Slide 84 So much for Mr. Coulomb!