Y2_T4_LSN_4.1

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ScienceMiddelbare schoolhavo, vwoLeerjaar 2

This lesson contains 25 slides, with interactive quizzes and text slides.

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Slide 1 - Slide

Topic 4

Moving in the world

Slide 2 - Slide

Plan for today

Planning topic 4
Explanation T4.1 Forces
Make homework

Slide 3 - Slide

Planning Topic 4

Quiz 4.1 - 4.3 in 2 weeks (counts 2x)
Test T4 (4.1-4.5) in test week (counts 4x)
Practica in 2/3 weeks (no grade)

Slide 4 - Slide

4.1 Forces

Slide 5 - Slide

Learning goals

I can....

explain what a force is an can identify different types of forces.
calculate the gravitational force acting on an object.
draw arrows on a force diagram with the correct point of application, magnitude, and direction.
calculate the resultant force of forces going in the same direction or opposite direction of each other
calculate the resultant force of two perpendicular forces

Slide 6 - Slide

Key words

Force
Newton
Gravity
Applied force
Muscle force
Driving force
Air resistance
Drag
Friction
Tension force

Spring force
Elastic force
Normal force
Support force
Weight
Point of application
Direction
Magnitude
Resultant force

Slide 7 - Slide

A world of forces

A force is defined as a push or pull.

unseen
see the effects

The unit for forces is in Newtons (N).

Slide 8 - Slide

Types of forces

There are different types of forces:

Gravity = pulls objects towards the earth
Applied force = a general force applied to an object (muscle or motor)
Air resistance = force between air and an object
Friction = force exerted by a surface sliding against an object
Tension force = force spread through a rope or cable when pulled
Spring force = force when a spring or elastic material is stretched
Normal force = force supporting an object on a surface

Slide 9 - Slide

Types of forces

Types of forces

Unit

Also known as

Gravity

F_g

Applied force

F_a

muscle force

driving force

Air resistance

F_air

drag

Friction

F_f

Tension force

F_t

Spring force

F_s

elastic force

Normal force

F_n

support force

Slide 10 - Slide

Types of forces

Slide 11 - Slide

Measuring gravity and weight

The force needed to lift 1 kg = 9.81 N on earth

9.81 is the gravitational constant on earth in N / kg or

On the moon the force needed is only 1.6 N

(So the mass is the same, but the

gravitational force is different)

Weight = the newtons for every kg of an objects mass

9.81 is the gravitational constant on earth in N / kg or

m / s²

Slide 12 - Slide

Calculating gravity force

Formula for calculating Gravity force:

F_g is the gravitational force in [N]

m is the mass in [kg]

F_g = m x 9.81

Slide 13 - Slide

Calculating gravity force

Example:

The mass of Peter is 70 kg. What is his gravitational force (F_g)?

F_g = m x 9.81

F_g = 70 [kg] x 9.81 [N/kg]

F_g = 868 [N]

Slide 14 - Slide

Example: The gravitational force of my cat is 34.3N What is her mass ?

F^{​ g ​ ​}

Slide 15 - Open question

Example: Peter has a mass of 76 kg. What is his gravitational force, ?

F^{​ g ​ ​}

Slide 16 - Open question

Drawing force diagrams

Forces are represented by an arrow

It has three things:

Point of application (origin of force)
Direction
Magnitude (the longer the arrow, the bigger the force)

For the magnitude you use a scale (in this case 1 cm = 10N)

Slide 17 - Slide

A forces is drawn with a length of 4 cm
The scale is 1 cm = 30 N
What is the magnitude of the force drawn?

60 N

30 N

120 N

7,5 N

Slide 18 - Quiz

I want to draw a force with a magnitude of 300 N.
The scale must be 1 cm = 60 N
How large should the arrow be?

2 cm

5 cm

10 cm

12 cm

Slide 19 - Quiz

Calculating forces

If there is more than one force acting on an object then the forces can be combined to create one total force = resultant force

Two forces in the same direction are added up

Two forces in opposite direction are subtracted from eachother

If forces are equal and in opposite direction, there is no motion!

F^{​ r e s ​ ​}

Slide 20 - Slide

Calculating forces

Slide 21 - Slide

What is the resultant force?

140 N to the left

140 N to the right

60 N to the left

60 N to the right

Slide 22 - Quiz

What is the resultant force?

225 N to the left

225 N to the right

25 N to the left

25 N to the right

Slide 23 - Quiz

Perpendicular forces

When two forces are acting perpendicular to each other, you can calculate the resultant force with the abc-formula.

F^{​ r e s ​ ​} = \sqrt ​ 30^{​ 2 ​ ​} + 40^{​ 2 ​ ​} ​ ​ ​

= 50 N

a^{​ 2 ​ ​} + b^{​ 2 ​ ​} = c^{​ 2 ​ ​}

Slide 24 - Slide

Homework

Study the glossary of 4.1
Complete the exercises of 4.1 (p. 158-161)

Slide 25 - Slide

Y2_T4_LSN_4.1

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