Sections 12.1 and 12.3 Meeting the Demand for Electricity.

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12.1 Electricity at Home (Pages )

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Presentation transcript:

Sections 12.1 and 12.3 Meeting the Demand for Electricity

Electrical Demand in Ontario Electrical demand refers to the amount of electricity that is used. Baseload demand: continuous minimum demand about megawatts met using using large nuclear and hydroelectric generators produce electricity at a constant, reliable rate

Demand for electricity changes throughout the day: intermediate demand and peak demand Why does demand fluctuate depending on the time of day? These increasing demands are met by using smaller generators that can be turned on or off quickly

Ontario’s electrical energy: nuclear, hydroelectric, fossil fuels Changes in fuel cost lead to changes in the amount that the consumer is charged.

Interpret the graphic a) Describe how the demand for energy changes, throughout the day. b) At what time is the peak electricity demand reached? c) What is this demand, in megawatts? It increases over the course of the day. About 2 PM MW

Generating Electrical Energy All power generation plants rely on the same general mechanism for generating electrical potential energy: giant wheels (“turbines”) spin the magnet a magnet (a “rotor”) spins inside a coiled copper wire (a “stator”) electrons are pulled from the copper atoms electrons are sent where they are needed Energy input is required!

It takes a lot of energy to spin the turbine. The different kinds of power plants get that energy from different sources:

Two Types of Current Direct Current (DC) the type of current produced by a battery current in a circuit flows in only one direction Alternating Current (AC) the type of current produced and transmitted from electrical generation stations current in a circuit constantly switches direction electrons move back and forth, but there is no net movement Advantage of AC: voltage can be easily changed by transformers…

Direct Current (DC)Alternating Current (AC)

From the Power Plant to Your Home Electrical energy is transmitted over long distances. This requires large potential differences to be effective. But these high voltages are unsafe to the consumer! Transformers are devices that can change the potential difference of an electric current: step-up transformer: increases the voltage step-down transformer: decreases the voltage Video: Electricity Generation (5:18)

 The spinning magnet produces voltages of ~ V.  A step-up transformer increases the potential difference to values of up to V before sending the current to transmission lines  At local distribution stations a step-down transformer decreases the potential difference to about V.  

Electricity In Your Home Box or pole transformers in your outside your home step down the voltage once more. By the time it enters your home, current has a potential difference of 120 V.

Your devices have additional built-in transformers to bring the voltage further down.

Inside your home, the current passes to a distribution panel that consists of circuit breakers, or fuses (in older homes) these are safety devices they break the circuit whenever the current reaches a dangerous level Fuse box Breaker box

Homework Right now: In groups, use your textbook to help you fill in the sheet (Power Generation in Ontario). Hand this in by the end of class. When complete: Pg. 487 #1, 2 Pg. 491 #2 Pg. 505 #1a, 4, 5, 6, 7