Meera Chandrasekhar Dorina Kosztin Department of Physics and Astronomy University of Missouri, Columbia

Similar documents
Support: Missouri Department of Elementary and Secondary Education Math-Science Partnership Grant.

Move Onto Physics. What is the Physics First program? Students Beliefs. Curriculum

Handout 5: Current and resistance. Electric current and current density

Question 3: How is the electric potential difference between the two points defined? State its S.I. unit.

Ohm's Law and Resistance

1. What is heating effect of current? What is its cause?

Resistance Learning Outcomes

Resistance Learning Outcomes. Resistance Learning Outcomes. Resistance

Ohm s Law Book page Syllabus 2.10

A Review of Circuitry

WHAT ARE THE EFFECTS OF MOVING CHARGES?

What is dynamic electricity?

9. Which of the following is the correct relationship among power, current, and voltage?. a. P = I/V c. P = I x V b. V = P x I d.

Chapter 27 Current and resistance

Insulators Non-metals are very good insulators; their electrons are very tightly bonded and cannot move.

Electron Theory of Charge. Electricity. 1. Matter is made of atoms. Refers to the generation of or the possession of electric charge.

3 Electric current, resistance, energy and power

1 Written and composed by: Prof. Muhammad Ali Malik (M. Phil. Physics), Govt. Degree College, Naushera

Electromagnetism Checklist

Nucleus. Protons(+) and. Neutrons

CHAPTER 1 ELECTRICITY

Chapter.16 / Section.1: Electric Charge. Q=Ne Total Charge=number of electrons transferred fundamental charge

Closed loop of moving charges (electrons move - flow of negative charges; positive ions move - flow of positive charges. Nucleus not moving)

Electricity. dronstudy.com

SCI-4 Pemberton_Malecky_4.3Electricity_Test Exam not valid for Paper Pencil Test Sessions

What are the two types of current? The two types of current are direct current and alternating current.

Review. Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.

Material World Electricity and Magnetism

Electric Current & DC Circuits

Current and Resistance

NORTHERN ILLINOIS UNIVERSITY PHYSICS DEPARTMENT. Physics 211 E&M and Quantum Physics Spring Lab #4: Electronic Circuits I

AP Physics C - E & M

Electricity MR. BANKS 8 TH GRADE SCIENCE

Electric Current. Chapter 17. Electric Current, cont QUICK QUIZ Current and Resistance. Sections: 1, 3, 4, 6, 7, 9

Electricity. Prepared by Juan Blázquez, Alissa Gildemann. Electric charge is a property of all objects. It is responsible for electrical phenomena.

Heat: the transfer of thermal energy from one substance to another. Electrons: the small particles inside an atom that have negative charge.

Circuits-Ohm's Law. 1. Which graph best represents the relationship between the electrical power and the current in a resistor that obeys Ohm s Law?

Ch. 21: Current, Resistance, Circuits

What does it mean for an object to be charged? What are charges? What is an atom?

Fat: Who Says? Measuring Obesity by Bioelectrical Impedance Analysis

Electric charges. Basics of Electricity

Algebra Based Physics

Physics Circuits: Series

Preliminary Course Physics Module 8.3 Electrical Energy in the Home Summative Test. Student Name:

Unit 10: Electrodynamics notes

Electromagnetism Review Sheet

Section 1: Electric Charge and Force

Chapter 27. Current And Resistance

5. ELECTRIC CURRENTS

EE 42/100 Lecture 3: Circuit Elements, Resistive Circuits. Rev D 1/22/2012 (4:19PM) Prof. Ali M. Niknejad

CHARGE AND ELECTRIC CURRENT:

Static Electricity. Electric Field. the net accumulation of electric charges on an object

Resistivity and Temperature Coefficients (at 20 C)

Circuits. Circuits. Electric Current & DC Circuits. current and circuits presentation March 22, How to Use this File.

Chapter 3: Electric Current And Direct-Current Circuits

AP Physics C - E & M

Big idea (age 11-14) PEM: Electricity and magnetism

9/22/16 ANNOUNCEMENT ANNOUNCEMENT FINAL EXAM

Chapter 17. Current and Resistance. Sections: 1, 3, 4, 6, 7, 9

RECALL?? Electricity concepts in Grade 9. Sources of electrical energy Current Voltage Resistance Power Circuits : Series and Parallel

Unit 3 BLM Answers UNIT 3 BLM 3-46

Physics First. Grades Curriculum Committee Members. Michael Black, Science Curriculum Coach

HIGH SCHOOL SCIENCE. Physical Science 7: Electricity & Magnetism

Unit 2. Current, Voltage and Resistance

Unit 6 Current Electricity and Circuits

Calculate the total resistance of this combination. (3)

Circuits. Electric Current & DC Circuits. Slide 1 / 127. Slide 2 / 127. Slide 3 / 127. Slide 4 / 127. Slide 5 / 127. Slide 6 / 127

TSOKOS LSN 5-1 TO 5-5 TEST REVIEW

10 N acts on a charge in an electric field of strength 250 N.C What is the value of the charge?

ELECTRICITY. Electric Circuit. What do you already know about it? Do Smarty Demo 5/30/2010. Electric Current. Voltage? Resistance? Current?

Continuous flow of electric charges. Current Electricity

Electroscope Used to are transferred to the and Foil becomes and

Section 1 Electric Charge and Force

Electrical Forces arise from particles in atoms.

Chapter 27. Current and Resistance

PHYS 1444 Section 002 Lecture #13

Downloaded from

Electric Force and Charge. Electric Force and Charge. Electric Force and Charge. Electric Force and Charge. Electric Force and Charge

Chapter 27. Current And Resistance

Electrical Circuits. Sources of Voltage

Problem Solver Skill 5. Defines multiple or complex problems and brainstorms a variety of solutions

Chapter 27: Current & Resistance. HW For Chapter 27: 6, 18, 20, 30, 42, 48, 52, 56, 58, 62, 68

XII PHYSICS [CURRENT ELECTRICITY] CHAPTER NO. 13 LECTURER PHYSICS, AKHSS, K.

National 5 Physics Solutions to Electricity & Energy exam questions

CHAPTER 4 DC Electricity

- Memorize the terms voltage, current, resistance, and power. - Know the equations Ohm s Law and the Electric Power formula

Electric Current. You must know the definition of current, and be able to use it in solving problems.

Lab 8 Simple Electric Circuits

Electric current is a flow of electrons in a conductor. The SI unit of electric current is ampere.

MITES Middle School Introduction To Engineering Systems

LABORATORY 4 ELECTRIC CIRCUITS I. Objectives

Magnets attract some metals but not others

SAM Teachers Guide Electricity

ELECTRICITY. Chapter ELECTRIC CHARGE & FORCE

Materials Needed 1 D-Cell battery 6 6-inch pieces of wire 3 flashlight light bulbs 3 light bulb holders (optional)

Electricity and Electromagnetism SOL review Scan for a brief video. A. Law of electric charges.

Nama :.. Kelas/No Absen :

CURRENT ELECTRICITY The charge flowing any cross-section per unit time in a conductor is called electric current.

Use these circuit diagrams to answer question 1. A B C

Properties of Electric Charge

Transcription:

Meera Chandrasekhar Dorina Kosztin Department of Physics and Astronomy University of Missouri, Columbia Support: Missouri Department of Elementary and Secondary Education Math-Science Partnership Grant www.physicsfirstmo.org

Physics First is a national movement to teach a year-long Physics course in 9th grade In Missouri, MO-DESE has funded a partnership led by Columbia Public Schools and Univ. of Missouri-Columbia to develop curriculum and conduct professional development (PD) Three summers of PD were conducted in 2006, 2007, and 2008 for approx. 70 teachers in 25 Missouri school districts

Year 1: Uniform and Accelerated Motion, Forces, and Newton s Laws Year 2: Motion in 2D, Energy, Momentum, Astronomy, and Electricity Year 3: Electromagnetism, Heat, Light, Waves Pedagogy - based on Modeling, Inquiry & 5E Today - parts of Unit 9: Electrical Resistance

Students Beliefs and Big Ideas What affects resistance two labs What causes resistance? microscopic picture Figuring out a law that connects voltage, current and resistance

Electric current, resistors, batteries Electricity is used up by an electrical device Electrons in a circuit can be lost and converted into heat or light (no conservation of charge). The electron slows down as it travels in the circuit; the lost (kinetic) energy is converted into heat, light, etc. Batteries are a reservoir of charge; the charge gets used up to light the lamp, sound the buzzer, run the motor, etc. The battery decides the amount of current that flows, not the resistance in the circuit.

Electric current is the flow of charge per unit time. For charges to move a voltage must be provided. Voltage is proportional to the electric current and the resistance of the resistor. The voltage between two points in a circuit is the same for every circuit element(s) connected between those two points (parallel circuit). The current in a circuit is the same at any two points in a circuit if there are no junctions between those points (series circuit).

A multimeter can be used to measure the electric current, the voltage and the resistance Every circuit element has resistance (more or less) Resistors can have a wide range of resistance When resistors are connected in series, the total resistance of the group increases

Design and conduct an experiment to determine the parameters that affect the resistance of a wire. (DOK4) Demonstrate how resistance is measured:

Brainstorm factors that might affect the resistance of a wire Temperature Amount of wire / Length of wire Material that the resistor is made of Width of wire Copper is good conductor, so its resistance is less Shape of wire Whether it is wet or dry The color of its insulation

Conduct experiments to determine how the length, the diameter, and the material properties of a wire affect its resistance. Experiment 1: Use Pencil Lead Resistance Board to investigate the effect of the material, and the effect of the length Experiment 2: Use Wire Resistance Board to investigate the effect of wire thickness

Resistance of nichrome wire of four different diameters:

Optional: Resistance of Nichrome Wire vs. Length Resistance (Ω) 25 20 15 10 5 26-gauge 28-gauge 32-gauge 36-gauge 0 0 5 10 15 20 25 Length (cm)

Resistance depends on material, ρ Relationship between R and L R L Relationship between R and A L A R 1 A Develop a mathematical expression for resistance R = ρl A where ρ = resistivity, typical of material in Ω.cm L = length in cm, A is the cross sectional area in cm 2

Metals have loosely bound electrons and are good conductors of electricity. Metals can be made into resistors of low resistance. Glass, rubber, or plastic, have tightly bound electrons that do not move easily. They are poor conductors of electricity and are called insulators. Insulators usually have a high resistance. Resistance and conductance are inverse terms: high conductance means a low resistance and vice versa.

Electrical resistance is a measure of how well a material resists the flow of current. In a metal, electrons are loosely bound to their nuclei. They cannot easily escape the atom, but within the metal they run around freely. As electrons run around they bump into each other, vibrating host atoms, and impurity atoms (for example, oxygen in copper). Collisions deflect the electrons, and their paths zigzag around. They do not "get anywhere" because they go forward as much as they go backward.

When a voltage is applied to a resistor, the positive side of the resistor attracts the electrons. Electrons still go in zigzag paths but travel a little more toward the positive side of the resistor than in other directions. The collisions produce an internal friction or drag -- resistance.

A device that resists the flow of current is called a resistor. The ease with which electrons flow through the resistor is determined by its resistance. The value of the resistance is a property of the resistor and depends on the length and diameter of the resistor as well as the material the resistor is made of.

Resistors are made of conducting or semiconducting materials. Their resistance can be controlled to provide the desired value. Examples - light bulbs, the heater coil in a toaster, a curling iron, the heating element in an electric stove, and carbon resistors in electronic circuits. Resistors often have their values printed in a code called the resistor color code.

The resistance of a metal increases as it gets hot. The metal atoms vibrate more when heated, and a traveling electron collides with atoms more frequently. The larger number of collisions generates a larger resistance to electron flow. Example: the filament of a light bulb is made of a coil of tungsten wire. It heats up and glows when current passes through it. The filament has a higher resistance when it glows than when there is no current going through it.

Resistance increases when a metal is heated

Resistance (ohms) 25 20 15 10 Copper Aluminum Nichrome Tungsten All four resistors have a resistance of 10 Ω at 20 C 5 0 50 100 150 200 Temperature ( C)

Investigate whether there is a relationship that connects voltage, current and resistance Draw three circuits: Circuit 1 has a resistor R 1 and a 3V battery Circuit 2 has the same resistor R 1 and a 6V battery Circuit 3 has the same resistor R 1 and a 9V battery

Make a table and compare (wear your student hats!): Total resistance in circuits 1,2,3 Voltage applied across resistors in circuits 1,2,3 Currents through the resistor in circuits 1,2,3 Resistance Voltage Current Circuit 1 Circuit 2 Circuit 3

Design an experiment to obtain a relationship between current, voltage and resistance IV- voltage; DV- current for a given resistor Measure current through the resistor and voltage across the resistor at the same time. Make measurements for several voltages After obtaining one current vs. voltage curve for a given resistor, repeat the measurement for several resistors.

Measuring current with 3V battery Measuring current and voltage with 3V battery

Measuring current and voltage with 6V battery 1.5V, 3V and 6V batteries can produce several combinations

Voltage (volts) 10 8 6 4 2 0 Voltage vs. Current for Four Resistors V = (4.779)I V = (1.528)I V = (0.535)I V = (0.219)I 528 ohms 217 ohms 1486 ohms 4630 ohms 0 5 10 15 20 25 30 35 40 Current (ma) Slope of lowest line: = rise run = (4.38 0)V (20 0)10 3 A = 219 V A = 219Ω Next, read off current at 4.4V for each resistor R (Ω) Current at 4.4V (ma) 217 20 528 8.5 1486 2.79 4630 0.95

Resistance (Ω) Current (ma) 217 20 528 8.5 1486 2.79 4630 0.95 1/R Resistance (Ω) Current (ma) 0.0046 217 20 0.0019 528 8.5 0.0007 1486 2.79 0.0002 4630 0.95 Current vs. Resistance for a Fixed Voltage of 4.4V 25 Current vs. 1/R for 4.4V Current (ma) 25 20 15 10 5 Current (ma) 20 15 10 5 I (A)= 4.36/R 0 0 1000 2000 3000 4000 5000 Resistance (ohms) 0 0.000 0.002 0.004 0.006 1/Resistance (1/ohms)

A mathematical relationship between voltage, current and resistance : Ohm s law: V = IR or [volts]=[amps].[ohms] or [V]=[A]. [Ω] For a resistor, the greater the voltage, the greater the current. The resistor dictates the amount of current in a circuit, given a certain battery. Ohm s law applies to resistors, not to all electronic devices. Ohm s law can be applied to individual resistors, to strings of resistors, or a whole circuit of resistors. The current-voltage graph for an ohmic device is a straight line. The slope of a current-voltage graph (rise/run) has units of [A]/[V]. These units translate to [Ω].

Students conduct experiments to investigate the factors that affect the resistance of a wireshaped object: Resistance = Resistivity of material x Length Cross - sectional area Students conduct an experiment to determine the connection between voltage, current and resistance, Ohm s Law: Voltage across resistor = Current through resistor x Resistance

meerac@missouri.edu kosztind@missouri.edu storres@columbia.k12.mo.us www.physicsfirstmo.org click on Meeting Archives www.exploringphysics.com

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback