Class 2 - Chapter 4 Electricity

Chapter 4 - Electricity

recap after the holiday

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Slide 1: Slide

Natuurkunde / ScheikundeMiddelbare schoolvwoLeerjaar 2

This lesson contains 43 slides, with interactive quizzes and text slides.

Lesson duration is: 45 min

Items in this lesson

Chapter 4 - Electricity

recap after the holiday

Slide 1 - Slide

Today

- Live les + Lessonup

- Recap of paragraph 1 till 4

- On your own, make the D-test (online)

Slide 2 - Slide

How well do you remember all the explanations? Rate yourself:

Slide 3 - Quiz

What is the title of
the chapter?

Slide 4 - Mind map

A closed circuit
consists of which 3 parts?

Slide 5 - Mind map

A lamp uses:

Electrical current

Electrical energy

Electrical voltage

Electrical resistance

Slide 6 - Quiz

Which three substances are resistors?

Rubber, plastic and glas

Plastic, diamond and wood

Rubber, oil and wood

Plastic, oil and glass

Slide 7 - Quiz

Which substance is a conductor?

All metals

Carbon

(Sea)water

Lemonjuice

Slide 8 - Quiz

Electrical current tells you something about?

How many particles 'flow' past

How 'fast' the particle is going

How much electrical energy a particle 'carries'

How 'energetic' a particle is

Slide 9 - Quiz

Electrical voltage tells you something about?

How many particles 'flow' past

How 'fast' the particle is going

How much electrical energy a particle 'carries'

How 'energetic' a particle is

Slide 10 - Quiz

How much voltage comes from an electrical outlet at home?

2,3 volt

23 volt

230 volt

2300 volt

Slide 11 - Quiz

If you connect 4 batteries of 1.5 volts in series, you get a total voltage of:

5,5 volt

6,0 volt

2,66 volt

2,5 volt

Slide 12 - Quiz

Wire

Battery

Light

Switch

Motor

Power outlet

Slide 13 - Drag question

In a series circuit, the ... is the same everywhere.

Current

Voltage

Energy

Power

Slide 14 - Quiz

In a parallel circuit, the ... is the same everywhere.

Current

Voltage

Energy

Power

Slide 15 - Quiz

To calculate the power you need the following two data:

Slide 16 - Open question

The correct formula to calculate the power is:

v o l t a g e + c u r r e n t

v o l t a g e - c u r r e n t

v o l t a g e \cdot c u r r e n t

\frac{​ c u r r e n t ​ ​}{​ v o l t a g e ​}

Slide 17 - Quiz

The correct formula is:

P = U + I

P = U - I

P = U \cdot I

P = \frac{​ I ​ ​}{​ U ​}

Slide 18 - Quiz

Quantity

Unit

Sybmbol

symbol

Power

Current

Voltage

Ampère

Watt

Volt

Slide 19 - Drag question

Last question!

Good luck!

Slide 20 - Slide

How well did it go, what grade do you give yourself if you are honest?

Slide 21 - Quiz

TEST?

Wednesday test, online! Open book key.

Have a charged iPad and phone.

The test comes via e-mail -> Google Forms.

Make the test on your iPads

Slide 22 - Slide

What did you think of this way of repeating?

Slide 23 - Open question

Give me (Mr. Post) 1 tip and 1 top:

Slide 24 - Open question

Huiswerk

Diagnostic test

Magister -> Leermiddelen -> Nask -> Hoofdstuk 4

Deadline: Monday 4-Jan 9:00 pm (tonight)

Slide 25 - Slide

And now?

2 options:

Option 1: independently take the D-test

Magister -> Leermiddelen -> Nask -> Hoofdstuk 4

Option 2: Hang on and follow the quick recap

Summary also comes via a link in Classroom.

Slide 26 - Slide

Paragraaf 1

Electrical energy

When the light is on, it consumes electrical energy. This energy is provided by the battery.

Slide 27 - Slide

Paragraph 1

Circuit
Electrical energy
Insulating and conductive materials

Current

Slide 28 - Slide

Paragraaf 1

Circuit

In this circuit, the battery is connected to the battery with two cables. We then speak of a closed circuit.

Slide 29 - Slide

Paragraaf 1

Insulators and conductors

Insulators Conductors

Slide 30 - Slide

Paragraaf 1

Current
Current (I) is measured in amperes (A).

Current = the amount of particles that flow through the wire in a specific place in a second

Slide 31 - Slide

Paragraaf 2

Voltage

Voltage sources
Batteries in series connection
Mains voltage (230 volts from the socket)

Slide 32 - Slide

Paragraaf 2

Voltage
You measure voltage (U) in volts (V).

Voltage = the amount of electrical energy that the particle 'carries' with it

Slide 33 - Slide

Paragraaf 2

Voltage sources

Slide 34 - Slide

Paragraaf 2

Voltage sources

A small battery supplies about 1.5 volts

An electrical outlet supplies about 230 volts

An (electric) train runs on 1500 volts

Slide 35 - Slide

Paragraaf 2

Batteries in series connection

Often you need more than one battery to

to get the right tension.

You have to connect the batteries in series.

If you do this (correctly) you can add up the voltages.

Slide 36 - Slide

Paragraaf 3

Symbols

Series connection
Parallel connection

Slide 37 - Slide

Paragraaf 3

Symbols

Slide 38 - Slide

Paragraaf 3

Series connection
In a series circuit, the amperage is the same everywhere.

Slide 39 - Slide

Paragraaf 3

Parallel connection
In a parallel circuit, the voltage is the same everywhere.

Slide 40 - Slide

Paragraaf 4

Power

Formula ( )

P = U \cdot I

Slide 41 - Slide

Paragraaf 4

Power
You calculate power in watts

Power tells you how much electrical energy a device uses in 1 second

Slide 42 - Slide

Paragraaf 4

Formula

power=voltage × current

P = U \cdot I

Quantity

symbol

Unit

symbol

power

watt

voltage

volt

current

ampere

Slide 43 - Slide

Class 2 - Chapter 4 Electricity

Items in this lesson

Slide 1 - Slide

Slide 2 - Slide

Slide 3 - Quiz

Slide 4 - Mind map

Slide 5 - Mind map

Slide 6 - Quiz

Slide 7 - Quiz

Slide 8 - Quiz

Slide 9 - Quiz

Slide 10 - Quiz

Slide 11 - Quiz

Slide 12 - Quiz

Slide 13 - Drag question

Slide 14 - Quiz

Slide 15 - Quiz

Slide 16 - Open question

Slide 17 - Quiz

Slide 18 - Quiz

Slide 19 - Drag question

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Slide 21 - Quiz

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Slide 23 - Open question

Slide 24 - Open question

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