2.4 graphs and air resistance

SI units

Make a table of the quantities and units in your notebook

Add for each a column with their symbols.

Give an example in which kind of job or situation one could use these quantities.

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Slide 1: Slide

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This lesson contains 19 slides, with interactive quizzes, text slides and 2 videos.

Lesson duration is: 45 min

Items in this lesson

SI units

Make a table of the quantities and units in your notebook

Add for each a column with their symbols.

Give an example in which kind of job or situation one could use these quantities.

Slide 1 - Slide

How do you calculate speed?

Slide 2 - Open question

When making a graph of the time it takes to go from home to school,
what labels do I put on the axis?

x-axis: speed v y-axis: time t

x-axis: distance x y-axis: time t

x-axis: time t y-axis: speed v

x-axis: time t y-axis: distance x

Slide 3 - Quiz

Distance-time graph

Now draw this graph in your notebook
with distance in km on the y-axis
and time in min on the x-asis.

Draw the following:
On the first track I ride 3 km in 15 min at constant speed.

Then I need to wait at a traffic light for 5 min.

Then I need to speed up and ride 3 km in 10 min.

Slide 4 - Slide

I cycle 3 km in 15 min,
what is my speed in SI units?

Slide 5 - Open question

Calculation tactics

Given:

Asked:

Formula:

Calculation:

Answer:

Slide 6 - Slide

Skill: Reading graphs.
What needs explanation?

How are the axes labeled?

What is the scale on the axes?

What is the slope and shape of the graph?

Where does the graph start and end?

Slide 7 - Quiz

Which questions are there still about unit 2.3 (acceleration)

Slide 8 - Open question

Learning objectives unit 1

- SI units

- Calculating speed using the problem solving procedure.

- Drawing a x,t-graph based on data given / measurements.

Slide 9 - Slide

Video slide

after this: Brian Cox visits the world's biggest vacuum

Free Fall of a Bowling Ball and a set of feathers.

Slide 10 - Slide

Slide 11 - Video

00:25

What does vacuum mean?

Slide 12 - Open question

01:27

Which object falls fastest
when air resistance
is significant (= plays a role)?

The feathers

The bowling ball

No difference in speed

Slide 13 - Quiz

02:28

What do we call
the force on any object near the Earth's surface?

Slide 14 - Open question

03:00

Which object falls fastest
when air resistance
is NOT significant (= plays a role)?

The feathers

The bowling ball

No difference in speed

Slide 15 - Quiz

03:24

Why is there no difference in speed when the feathers and bowling ball fall now?

Slide 16 - Mind map

04:41

According to Newton: a freely falling object has a constant acceleration.

TRUE

FALSE

IDK

Slide 17 - Quiz

The acceleration of a freely falling object near the Earth
is 10 m/s . It took 15 s for the objects to fall.
a) Calculate the speed with which they hit the bottom.
b) Calculate the height from which they fell.
Tip: Use the average speed.

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Slide 18 - Open question

Slide 19 - Video