Circuit Basics 101

What Do You Know About Circuits?

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Slide 1: Mind map

PhysicsSecondary EducationAge 12

This lesson contains 46 slides, with interactive quizzes, text slides and 11 videos.

Items in this lesson

What Do You Know About Circuits?

Slide 1 - Mind map

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Breadboard

Used for testing and prototyping
Allows components to be arranged around the board by connecting terminals to appropriate holes
Requires a power supply

Slide 2 - Slide

Explain the rows and columns of a breadboard, the power supply connects to either of the two sets of columns of the breadboard, positive to positive and negative to negative.

The rows are then supplied with a current where the wire is connected, the current is stopped in the middle of the board.

How many volts do you think we need for our breadboard?

Slide 3 - Open question

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Slide 4 - Video

The resistance in the cables as well as the batteries not being brand new are factors as to why the voltmeter does not read 5V

That's right, 5 Volts!

We can use the tool shown in the video to calculate the voltage in a closed circuit. This is called a Voltmeter.

Slide 5 - Slide

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Now we need to power our breadboard!

Slide 6 - Slide

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Slide 7 - Video

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What does LED stand for?

Less Efficient Diode

Light Emitting Dongle

Light Emitting Diode

Low Effect Deflector

Slide 8 - Quiz

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LED

This is an LED, when a current is passing through it, light is emitted. The LED can display multiple colours and also adds very little resistance when current is flowwing in the right direction.

Slide 9 - Slide

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Connecting an LED

LEDs have one pin that is longer than the other, this is the positive pin.
The shorter pin must be connected to the negative end of the power supply on the breadboard.
Red = Positive
Black = Negative

Slide 10 - Slide

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Slide 11 - Video

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00:10

What do you think this component is and what does it do?

Slide 12 - Open question

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Buttons in a circuit

When pressed, complete the circuit and allow a current to flow.
When not pressed, circuit has not been
closed and a current will not flow.
The symbols in the diagram are
- Button (left), - LED (middle)
- 5 volt battery (right)

Slide 13 - Slide

We use an LED in the circuit because it gives a clear sign that a current is passing through the circuit

What other component also allows control over closing a circuit?

Diode

Switch

Resistor

Capacitor

Slide 14 - Quiz

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Slide 15 - Video

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A button on a breadboard has 2 pins on either side. Current will flow from 1 pin to another on the same side

Slide 16 - Slide

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Is it possible to connect 2 LEDs to the same button on the same circuit?

Yes it is!

No it isn't!

Slide 17 - Quiz

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Slide 18 - Video

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Can we make multiple circuits on the same breadboard?

Yes we can.

On the same breadboard we can create multiple circuits that are unaffected by one another.

The power supply powers an entire column of the breadboard which can be used!

Slide 19 - Slide

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Slide 20 - Video

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Which of these is a potentiometer?

Slide 21 - Quiz

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Slide 22 - Video

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00:24

What will happen when we twist the top of the potentiometer?

Slide 23 - Open question

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That's right!

A Potentiometer is also called a variable resistor.

The name says it all, this component allows us to vary the resistance within the circuit.

In the video shown, we saw that the effect of this was that the LED got brighter and dimmer as the resistance varied.

Slide 24 - Slide

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In the last video the LED was connected to the potentiometer using a resistor. What will happen if we replace the resistor with a basic cable?

It will get brighter

It will get dimmer

Nothing at all

Slide 25 - Quiz

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Slide 26 - Video

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Before we go on, let's talk about resistors.

Resistance is calculated in Ohms (Ω)

We can see that each resistor has 4 lines painted on it. These lines are simply telling us their resistance.

1st line - 1st digit of our amount
2nd line - 2nd digit of our amount
3rd line - the multiplier for our first two digits
4th line - the tolerence of the resistor i.e. its percentage error

Slide 27 - Slide

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Let's try one out!

What is the resistance of this Diode?

Answer:
470Ω ±5%

Slide 28 - Slide

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True of False:
Every component in a circuit has some resistance.

True

False

Slide 29 - Quiz

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Slide 30 - Video

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00:09

Connected to the same potentiometer we have 3 LEDs. 1 LED will be by itself and the other 2 will be connected together. Which LED/s will be brighter?

The one that's alone

The two that are together

All will be the same

Slide 31 - Quiz

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So why did that happen?

Circuits can be connected in 2 ways:

- Parallel: the 2 LEDs and the 1 alone were connected in parallel, they are uneffected by each other

-Series: the 2 LEDs are connected to each other in series, the means their combined resistance has an effect on the shared current

Slide 32 - Slide

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What else do you think we could do with circuits?

Slide 33 - Mind map

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Let's have some fun with colour

Remember this weird looking LED from earlier?

This is an RGB LED.

R - Red
G - Green
B - Blue

Let's see what happens when we use it in a circuit!

Slide 34 - Slide

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Slide 35 - Video

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00:09

The RGB LED contains all three colours together. What will happen if we don't add resistors?

It will be fine

It will burn the RGB LED

It will only show red

It will show all the colours

Slide 36 - Quiz

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01:25

What colour will the LED be when we press the red and blue buttons?

Slide 37 - Open question

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01:29

What about blue and green?

Slide 38 - Open question

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01:33

And red and green?

Slide 39 - Open question

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01:37

And lastly, what happens when we press all three?

Slide 40 - Open question

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The Buzzer

Our last component is going to be the buzzer!

This component unlike all the other components we saw, emits sound rather than light.

WARNING: It's really annoying!

Slide 41 - Slide

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Slide 42 - Video

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00:20

This looks familiar. What was this called?

Diode

Voltmeter

Capacitor

Potentiometer

Slide 43 - Quiz

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00:39

What will the variable resistor (potentiometer) be affecting?

Slide 44 - Open question

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What did you find most interesting/fun about the circuit basics?

Slide 45 - Mind map

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Thank You!

It's pretty easy so go ahead and have fun with your breadboard :)

Bye!

Slide 46 - Slide

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Circuit Basics 101

Items in this lesson

Slide 1 - Mind map

Slide 2 - Slide

Slide 3 - Open question

Slide 4 - Video

Slide 5 - Slide

Slide 6 - Slide

Slide 7 - Video

Slide 8 - Quiz

Slide 9 - Slide

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Slide 11 - Video

Slide 12 - Open question

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Slide 14 - Quiz

Slide 15 - Video

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Slide 17 - Quiz

Slide 18 - Video

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Slide 20 - Video

Slide 21 - Quiz

Slide 22 - Video

Slide 23 - Open question

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Slide 25 - Quiz

Slide 26 - Video

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Slide 29 - Quiz

Slide 30 - Video

Slide 31 - Quiz

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Slide 33 - Mind map

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Slide 35 - Video

Slide 36 - Quiz

Slide 37 - Open question

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Slide 42 - Video

Slide 43 - Quiz

Slide 44 - Open question

Slide 45 - Mind map

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