Electrical Power Physics A Current #4. Learning Targets  I can predict and calculate power in a circuit.  I can explain energy transfer in a circuit.

Slides:

Advertisements

Similar presentations

Factors Affecting Resistance

Advertisements

Current. Current Current is defined as the flow of positive charge. Current is defined as the flow of positive charge. I = Q/t I = Q/t I: current in Amperes.

Electrical Energy Chapter 13 Section 3.

Electric current is related to the voltage that produces it, and the resistance that opposes it.

Conceptual Physics: Electricity: What is an electric field? - The space surrounding a charged object is affected by the presence of the charge; an electric.

Electricity – Potential, Power, and Resistance. Drill #25 Quote: A goal is a dream with a deadline. ~Napoleon Hill Objective:TAKS Warm-up Potential, Power,

ELECTRICAL SYSTEMS 21.3.

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.

Unit 3 Simple Circuits. Electric current Voltage produces a flow of charge, or current, within a conductor. The flow is restrained by the resistance it.

Lesson 3 Measuring and Calculating Electricity. Next Generation Science/Common Core Standards Addressed! §CCSS.ELA Literacy.RST.9 ‐ 10.3Follow precisely.

Electrical Circuits and Circuit Diagrams

Power and Energy. Power Power means work over a time period Units = Watts Electric power is measured in Watts.

 POWER: the rate of change in energy; also the rate at which work is done or energy is transformed  JOULE (J): the unit for measuring energy  WATT.

Energy Review. The unit for kinetic energy. Joule.

Electric Power, AC, and DC Electricity

19-3: Electric Power Objectives:

Circuits & Electronics

Circuits Electric Circuit: a closed path along which charged particles move Electric Current: the rate at which a charge passes a given point in a circuit.

13 Electric Circuits. Chapter Outline 1 Electric Circuits and Electric Current 2 Ohm’s Law and Resistance 3 Series and Parallel Circuits 4 Electric Energy.

Chapter Twenty One: Electrical Systems

Warm-up Activity Think about your experience with the PhET circuit simulation that you recently completed Record in your notebook: –Two things that you.

13 Electric Circuits.

34.11 Electric Power Electric power is equal to the product of current and voltage.

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.

ELECTRICITY: CHAPTER 7 Section 3 B. Protecting the Building  Two ways to control current in wiring  Fuse Contains a small wire that melts if too much.

Physics Day 23 Aim: How much power does a toaster use? LO: Calculate power use for V, I and R LO: Calculate energy use from power LO: Kilowatt-hour is.

Current Electricity Current, Power and Energy. Current Electricity Current Electricity is what you get when you plug something into the wall. There are.

Electrical power. Objectives Use the equation for electrical power to solve circuit problems. Understand basic concepts for home electricity usage and.

Bellringer Two AA batteries in series will provide a voltage of how many volts?

Jag Mark In terms of electrons, how can an uncharged object become charged?

Chapter-13 Outline 1Electric Circuits and Electric Current, I 2 Ohm’s Law, ΔV = I R; and Resistance, R. 3 Series and Parallel Circuits 4 Electric Energy.

SPH3U Electricity & Circuits

Electric Energy Using Electric Energy Energy can be neither created nor destroyed,…but it can be transformed from one kind to another.

Calculate the missing quantities for the circuit below.

Power and Energy. Power Electric power - the rate at which electric energy is transformed into another form of energy such as light or heat. P=IV P =

Lesson Measuring and Calculating Electricity. Interest Approach § Have you or your parents ever been using several appliances in the kitchen and had a.

Electrical energy The rate at which electrical energy is moved through a circuit is given in terms of power. The unit for electric power is the Watt (W)

Unit 3, Chapter 8 Integrated Science. Unit Three: Electricity and Magnetism 8.1 Ohm's Law 8.2 Work, Energy, and Power Chapter 8 Electrical Relationships.

Power. Energy Transformation Electric energy can be transformed into other more useful forms Power is the rate of energy transformation P = ΔPE/t ΔPE.

There are two requirements that must be met in order to establish an electric circuit 1.There must be an energy source (battery) capable of doing work.

Electric Power Chapter 17 Lesson 4 p. 618.

Current Electricity. Section 22.1 Objectives Describe conditions that create current in an electric circuit. Use Ohm’s law to calculate properties of.

Electric Power Lesson 2.5. Key Concepts How do you calculate electric power? What factors are used to determine how people pay for electrical energy?

Topic 7: Measuring Electric Power. Getting electricity to your home Power generating station  transmission lines  home Step- up transformer Step- down.

22.1 Current and Circuits. Producing Electric Current When 2 conducting spheres touch, charges flow from the sphere at a higher potential difference to.

Electric Current Current, Ohms Law & Power. Electric Current  Electric current is related to the voltage that produces it, and the resistance that opposes.

Electrical power pg. 49. Objectives Use the equation for electrical power to solve circuit problems. Understand basic concepts for home electricity usage.

Energy and Power. Energy The ability to do work. Measured in Joules.

Hosted by Mr. McDevitt Voltage CurrentPower Short Circuit

Power in Electrical Systems Power in Electrical Systems.

Chapter 34 Notes Electric Circuits. Electric Current Intro Voltage is an “electric pressure” That can produce a flow of charge, or current, within a conductor.

Electrical power pg. 49 This lesson defines electric power and examines household electrical systems and power usage. Students learn how power is related.

Electrical Systems Series Circuits Parallel Circuits Electrical Power.

Current Electricity.

Electric Power Chapter 19-3.

Energy Transfer & Transformation

Electric Current Chapter 34.

Electrical Power.

Electricity 7-3 Circuits.

Chapter 22 Notes Current Electricity.

Chapter-13 Outline Electric Circuits and Electric Current, I

The heating effect of an electric current

Chapter Twenty One: Electrical Systems

Electric Power.

Electric Power Unit 12.3.

Hosted by Mrs. McDevitt 

Presentation transcript:

Electrical Power Physics A Current #4

Learning Targets  I can predict and calculate power in a circuit.  I can explain energy transfer in a circuit.  I can explain the difference between electric power and electric energy.

Power: Putting Charges to Work  Electric circuits are designed to serve a useful function.  Short Circuit: a circuit with a high rate of charge flow With charge flowing rapidly between terminals, the rate at which energy would be consumed would be high. Such a circuit would heat the wires to a high temperature and drain the battery of its energy rather quickly.

Power: Putting Charges to Work  When a circuit is equipped with a light bulb, beeper, or motor, the electrical energy supplied to the charge by the battery is transformed into other forms in the electrical device.  A light bulb, beeper and motor are generally referred to as a load.

Power: Putting Charges to Work  An electrical circuit is simply an energy transformation tool.  Energy is provided to the circuit by an electrical energy source.  Energy is delivered by the circuit to the load at the location of the load.  Power is the rate at which electrical energy is supplied to a circuit or consumed by a load.

Power: Putting Charges to Work  Like current, power is a rate quantity. Its mathematical formula is expressed on a per time basis.

Power: Putting Charges to Work  The unit of electrical power is the watt, abbreviated W.  A watt of power is equivalent to the delivery of 1 joule of energy every second. In other words: 1 watt = 1 joule / second

Power: Putting Charges to Work  When it is observed that a light bulb is rated at 60 watts, then there are 60 joules of energy delivered to the light bulb every second.  A 120-watt light bulbs draws 120 joules of energy every second.  The ratio of the energy delivered or expended by the device to time is equal to the wattage of the device.

The kilowatt-hour (kWhr)  Electrical utility companies who provide energy for homes provide a monthly bill charging those homes for the electrical energy that they used.  Somewhere on the bill will be a charge for the number of kilowatt-hours of electricity that were consumed.  Exactly what is a kilowatt-hour?

The kilowatt-hour (kWhr)  The kilowatt hour is a unit of energy.  A utility company in the United States is responsible for assuring that the electric potential difference across the two main wires of the house is 110 to 120 volts.  Maintaining this difference in potential requires energy.

Energy Bills

Check for Understanding The purpose of every circuit is to supply the energy to operate various electrical devices. These devices are constructed to convert the energy of flowing charge into other forms of energy (e.g., light, thermal, sound, mechanical, etc.). Use complete sentences to describe the energy conversions that occur in the following devices. a. Windshield wipers on a car b. Defrosting circuit on a car c. Hair dryer

Check for Understanding Determine the... a.... current in a 60-watt bulb plugged into a 120-volt outlet. b.... current in a 120-watt bulb plugged into a 120-volt outlet.

Check for Understanding Determine the... a.... power of a saw that draws 12 amps of current when plugged into a 120-volt outlet. b.... power of a toaster that draws 6 amps of current when plugged into a 120-volt outlet. c.... current in a 1000-watt microwave when plugged into a 120-volt outlet.

Check for Understanding Your 60-watt light bulb is plugged into a 110- volt household outlet and left on for 3 hours. The utility company charges you $0.11 per kiloWatt-hour. Explain how you can calculate the cost of such a mistake.

Check for Understanding Alfredo deDarke often leaves lights on for no good reason. The deDarke family pays 10¢/kilowatt-hour for their electrical energy. Express your understanding of the relationship between power, electrical energy, time, and costs by filling in the table below. Power (Watts) Time (hrs) Energy Used (kW-hr) Cost (cents) Cost ($) 60W light bulb W light bulb10 kW-hr

Power  The equation for calculating the power delivered to the circuit or consumed by a load is derived to be P = IΔV

Power P = I 2 R P = ΔV 2 / R

Check for Understanding Calculate the resistance and the current of a 7.5-Watt night light bulb plugged into a US household outlet (120 V).

Check for Understanding Calculate the resistance and the current of a 1500-Watt electric hair dryer plugged into a US household outlet (120 V).

Check for Understanding The box on a table saw indicates that the amperage at startup is 15 Amps. Determine the resistance and the power of the motor during this time.