Resistors and Ohm’s Law Experiment No

Slides:

Advertisements

Similar presentations

Advertisements

ECE201 Lect-21 Ohm's Law (2.1); Kirchhoff's Laws (2.2) Dr. Holbert January 23, 2006.

Electric currents Chapter 18. Electric Battery Made of two or more plates or rods called electrodes. – Electrodes are made of dissimilar metals Electrodes.

Cells have positive and negative electrodes.

Quarter 3 Test 2 Review. 1 Typically, household appliances operate at 120 volts. What is the current flowing in the circuit of a microwave when the resistance.

Thursday November 29, 2007SNC1D | Miss. Manaktola 1 Simple Circuits Quiz SNC1D: Thursday November 29, 2007.

Electricity refers to the presence of electric current in wires, motors, light bulbs, and other devices. Electricity carries power. Power (P)

Before we get started, let’s review: Describe a Series Circuit.

Use Ohm’s Law to solve the following equations.

Alternating Current and RMS Derivation Whiteboards.

Ohm’s Law The most important fundamental law in electronics is Ohm’s law, which relates voltage, current, and resistance. Georg Simon Ohm ( ) studied.

Electrical Resistance Gr 9 Science. 4 Electrical resistance = the property of a substance that hinders electric current and converts electrical energy.

Resistance in Electrical Systems

Series, Parallel, and Series- Parallel Circuits

4.2.3A Ohm’s Law & Circuit Basics Why Make Electrons Flow Anyway?

4.3 Notes Resistance in Electrical Systems. Properties of Materials Conductors Have a large ability to conduct electric current They contain many free.

Chapter Twenty: Electric Circuits

Investigation 16B  Key Question: What is the relationship between current and voltage in a circuit? Resistance and Ohm’s Law.

Ch 8-9 Review. What is the current flowing through this circuit? 3 A.

=Ohms_Law Voltage (Volts) Current (Amps) Resistance (Ohms or Ω)

Electrical resistance Resistance measures how difficult it is for current to flow.

Electrical Potential (Voltage) Answers (Page 303)

Current Electricity. How is current produced? When a high potential is connected by a conductive material to a low potential. When a high potential is.

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.

Calculating Electricity

Electric Current and Ohms Law. Electric Current The continuous flow of electric charge –The two types of current are direct current (DC) and alternating.

Electrical circuits. Intensity (I): Number of charges that flow past a given point every second. Measured in Amperes (A). Wires that carry the electrical.

Current Electricity SNC Grade 9. A Simple Circuit Load/Resistance Connecting wires Power source.

1 ELECTRICAL TECHNOLOGY EET 103/4 Define and explain the meaning of current, voltage, resistance, power, conductor, and insulator.

Electrical Systems. VOCABULARYOBJECTIVES  Series circuit  Voltage drop  Kirchoff’s Voltage Law Describe a series circuit. Calculate the resistance.

Electric Power. Answer Me!!! How is the brightness of a light bulb measured? What do you think is the significance of this?

describes the relationship between current, voltage, and resistance greater the voltage across a device with resistance, the greater the current through.

Electric Current, Resistance and Ohm’s Law

Regents Physics Parallel Circuits –Ohm’s Law in Parallel Circuits.

Chapter 8. Ohm’s Law  George Ohm experimented with circuits and came up with a mathematical relationship relating voltage, current and resistance in.

Circuit Basics and Ohms Law. Types of Circuits There are two basic types of circuits SeriesParallel.

Physics A First Course Electricity Chapter 13.

OHM’S LAW AND ELECTRICAL POWER. OHM’S LAW “Provided the physical conditions, such as temperature, are kept constant, the resistance is constant over a.

Ohm’s Law. Ohm’s Law states that the voltage v across a resistor is directly proportional to the current flowing through it.

Ohm’s Law PSSA Requirement Unit 9 Honors Physics.

Ohm’s Law Notes JAN 7. Vocabulary current : how quickly the electrons are flowing through the circuit; units: amperes (A) voltage : the electric potential.

Electrostatics (Static Electricity) was a single discharge. Current is a steady flow of electric charge.

Solving Problems 14.1 & A circuit contains 5-ohm, 3-ohm, and 8-ohm resistors in series. What is the total resistance of the circuit? Rt = R1.

Base your answers to the question on the information below. A copper wire at 20°C has a length of 10.0 meters and a cross-sectional area of 1.00 × 10-3.

Measuring Electricity. Electric Potential – the electrical energy that an electron possesses. Electric current is a measure of the rate at which the electric.

Current and Power Calculations Practice Math once again!!!

14.1 Series Circuits Swaney. Objectives 1. Describe a series circuit. 2. Calculate the resistance and current in a series circuit. 3. Explain how voltage.

Current Electricity.

Reformatted for Powerpoint by Megan Maller

WARM UP Draw a picture of a SERIES Circuit. Show a battery, a switch, and a light bulb in your drawing. Draw a picture of a PARALLEL Circuit. Show a battery,

(Answers on final slide)

Ohm’s Law & Electrical Power

Current Electricity.

Electricity, Sound and Light

Ohm’s Law. Ohm’s Law Work, Energy, and Power Series Circuits.

WALT – Explain how resistance is used in everyday life

16.3 Resistance and Ohm’s Law

Review of Calculations

Why Make Electrons Flow Anyway?

FIGURE 5-1 A series circuit with three bulbs

Electric Current.

CHAPTER 3 Ohm’s Law, Power.

Ohm’s Law and Circuit Basics

Chapter Twenty: Electric Circuits

Please bring your book tomorrow.

Voltage Difference The difference in electrical potential between two places. Unit of measure = V (volts) Voltage causes current to flow through an electric.

FIGURE 5-1 A series circuit with three bulbs

Electric Resistance describes how an electrical conductor (wire) opposes the flow of a current (flow of electrons) to overcome this opposition a voltage.

Presentation transcript:

Resistors and Ohm’s Law Experiment No Resistors and Ohm’s Law Experiment No. 3 Quiz Student Name _________________________ What parameters does Ohm’s Law relate? (What is Ohm’s Law used for?) What do you do to test a material to see if it is ohmic? (i.e., Does it follow Ohm’s Law?) How do you determine the power dissipated by a resistor? Name an application that requires (a) high resistance, (b) low resistance.

Resistors and Ohm’s Law Experiment No. 3 Quiz --- ANSWERS What parameters does Ohm’s Law relate? (What is Ohm’s Law used for?) Ohm’s Law describes the relationship between the current (I) flowing through a resistance (R) in response to an applied voltage (V). If the relationship is linear (i.e., I=V/R), then the resistance is said to be ohmic. Ohm’s Law allows calculation of any one of the three variables (I, R, and V) given the values of the other two. (2) What do you do to test a material to see if it is ohmic? (i.e., Does it follow Ohm’s Law?) To test a material to see if it is ohmic, you must subject it to two or more tests that measure the current resulting from different applied voltages. If the calculated resistances, using Ohm’s Law with the measured voltages and currents are the same, the material is ohmic. Another way is to plot current as a function of applied voltage for three or more points. If this results in a straight line, then the material is ohmic. (3) How do you determine the power dissipated by a resistor? Multiply the current (I, amperes) flowing through the resistor by the voltage drop (V, volts) across the resistor. This product is the power (P, watts). (4) Name an application that requires (a) high resistance, (b) low resistance. (a) incandescent light bulbs, electric stove elements, toaster ovens, hair driers, curling irons, steam irons , etc. (b) electric transmission lines, electrical circuit wiring, measuring devices such as multi-meters, etc.