6.5 Energy & Power in a circuit
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1e keer: Waarschuwing --> Maximaal 3 namen op het bord
2e keer: Kleine schrijfopdracht op de gang
3e keer: Eruit, naar Loket 21
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Eten/drinken
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Slide 1: Slide
Natuurkunde / ScheikundeMiddelbare schoolvmbo b, k, t, havo, vwoLeerjaar 1-3
This lesson contains 19 slides, with text slides and 1 video.
Items in this lesson
Regels van orde
1e keer: Waarschuwing --> Maximaal 3 namen op het bord
2e keer: Kleine schrijfopdracht op de gang
3e keer: Eruit, naar Loket 21
Nooit!
Geluid uit telefoons / Oordopjes in
Gooien
Eten/drinken
Gooien
Eten/drinken
Mutsen op / Jassen aan / Tassen op tafel
Slide 1 - Slide
Please get your stuff:
Slide 2 - Slide
6.5
Today
- Homework: Questions
- Energy & Power in a circuit
Slide 3 - Slide
Learning objectives
- You can calculte energy used from the power and the time.
- You can calculate the power a circuit is using from the current and the voltage.
Slide 4 - Slide
Questions about the homework?
Homework was:
42, 43, 44 page 188
Slide 5 - Slide
What is energy?
Slide 6 - Slide
What is energy?
Hard to say!
- Cannot be made
- Cannot be destroyed
- Can transformed type
- Is needed for any physical proces to run
- All physical processes transform energy
Slide 7 - Slide
Name some types of energy
- Electrical energy
- Kinetic energy = Energy of motion
- Chemical energy (petrol, sugar, ...)
- Gravitational energy
- Wind energy
- Radiotion energy (for instance solar energy)
- Heat
Slide 8 - Slide
Tell me what energy goes in and out
- chemical ce. to kinetic e.
- kinetic e. to electrical e.
- electrical e. to radiation e. and heat
- chemical e. to radiotion e. and heat
- radiation e. to electrical energy
- nuclear e. to electrical e.
- electrical e. to movement and sound and light
- electrical e. to chemical e.
- chemical e. to kinetic e. and heat
- chemical to heat
- radiation e. to chemical e.
- electrical e. to heat
- electrical e. to gravitational e.
- a driving car
- a rotating windmill
- a burning lamp
- a burning candle
- a working solar panel
- a working nuclear powerplant
- a smartphone that is being used
- a smartphone that is being charged
- someone riding a bike
- your body when it is not moving
- a tree that catches the sunlight
- a boiler cooking water
- an elevator lifting people
Slide 9 - Slide
Tell me what energy goes in and out
- a driving car
- a rotating windmill
- a burning lamp
- a burning candle
- a working solar panel
- a working nuclear powerplant
- a smartphone that is being used
- a smartphone that is being charged
- someone riding a bike
- your body when it is not moving
- a tree that catches the sunlight
- a boiler cooking water
- an elevator lifting people
Slide 10 - Slide
Slide 11 - Slide
the quantity of Energy is expressed in the unit of Joule
the quantity of Power is expressed in the unit of Watt
together:
energy used = power * duration it is on
E in Joule = P in Watt * ∆t in second
P in Watt = J/s
Everybody try it now!
How many Joule are used when:
How many Joule are used when:
I have an airfryer of 2500 W which is on for 600 s?
I have a lamp of 20 W which is on for one whole day?
E=P⋅Δt
timer
3:00
Slide 12 - Slide
the quantity of Energy is expressed in the unit of Joule
the quantity of Power is expressed in the unit of Watt
together:
energy used = power * duration it is on
E in Joule = P in Watt * ∆t in second
P in Watt = J/s
Everybody try it now!
How many Joule are used when:
How many Joule are used when:
I have an airfryer of 2500 W which is on for 600 s? 2500W*600s = 1.500.000 J = 1,5 MJ
I have a lamp of 20 W which is on for one day? 20W*24*60*60s = 1.728.000 = 1,7MJ
E=P⋅Δt
Slide 13 - Slide
the quantity of Energy is expressed in the unit of Joule
the quantity of Power is expressed in the unit of Watt
together:
energy used = power * duration it is on
Joule is very small. More convenient is the kWh = kiloWatt * hour
1 kWh = 3.600.000 J = 3,6 MJ
convert:
convert:
J --> kWh --> : 3.600.000
kWh --> J --> x 3.600.000
P in Watt = J/s
E=P⋅Δt
Slide 14 - Slide
the quantity of Energy is expressed in the unit of Joule
the quantity of Power is expressed in the unit of Watt
together:
energy used = power * duration it is on
P in Watt = J/s
Energie in kWh = vermogen in kW * tijd in uur
E=P⋅Δt
EkWh=PkW⋅th
Slide 15 - Slide
Making excercises
Try it yourself, and feel free to consult your neighbour.
Do exercises
56, 57, 58, 59, 60 page 193
56, 57, 58, 59, 60 page 193
until: 13:45
Slide 16 - Slide
Slide 17 - Video
Exchange:
The following person may explain:
The following person may explain:
V5
V2
Slide 18 - Slide
Check the answers
exercises
33 & 40 page 183/184
Slide 19 - Slide
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