Topic 3.3: Acceleration

Topic 4

Acceleration

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

Items in this lesson

Topic 4

Acceleration

Slide 1 - Slide

The unit for force is:

Slide 2 - Quiz

There are 2 Forces working on an object. When is the resulting force zero?

When the forces are working in the same direction

When the forces are opposites

When the forces have te same magnitude

When they are the same magnitude and opposite to each other

Slide 3 - Quiz

Dog A is pulling with a force of 60 N and dog B is pulling in the opposite direction with a force of 75 N
What is the resultant force?

15 Newton to dog A

75 Newton to dog B

60 Newton to dog A

15 Newton to dog B

Slide 4 - Quiz

The symbol for speed is

m/s

km/h

Slide 5 - Quiz

4 : Velocity

The speed can be given in 2 different units

m/s (meters per second)

km/h (kilometers per hour)

Slide 6 - Slide

recap 4.1: Speed

Speed (velocity) is the distance you travel in a given time

v for velocity in [m/s or km/h]

s for distance in [m or km]

t for time in [s or h(our)]

Slide 7 - Slide

time can be calculated with the following formula

t= v/s time = speed / distance

t = s/v time = distance /speed

t = s x v time = distance * speed

t = s + v time = distance + speed

Slide 8 - Quiz

Convert 100 km/h to m/s?

27,8 m/s

360 m/s

103,6 m/s

96,4 m/s

Slide 9 - Quiz

4.2 Force, Mass and Acceleration

Learning goals

1. You can describe the concept of acceleration and understand which measurements and units are necessary to calculate it

2. i can create and interpret v,t-diagrams relating to an object's change in motion

3. i can use an object's resultant force to determine what type of motion it has

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4.2 Force, Mass and Acceleration

Acceleration is change in speed, so speeding up or slowing down, measured in meters per second squared (m/s2).

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acceleration is an increase in speed

a is a positive number

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a decrease in speed is called decelaration

a is a negative number

Slide 13 - Slide

Tugra is at a traffic light. As soon as it hits green, he starts to speed up on his bike. He accelerates with 5 m/s2.
What is his speed after 4 seconds?

9 m/s

1 m/s

20 m/s

1,25 m/s

Slide 14 - Quiz

convert 18 m/s to km/h

14,4 km/h

65 km/h

5 km/h

21,6 km/h

Slide 15 - Quiz

4.2 Force, Mass and Acceleration

Slide 16 - Slide

4.2 Force, Mass and Acceleration

acceleration is positive when speed increases

delta v = v(final) - v(initial)

delta v = 20 - 0 = 20 m/s (so it is positive)

a = 20/5 = 4 m/s2 (also positive)

Slide 17 - Slide

4.2 Force, Mass and Acceleration

acceleration is negative when speed decreases

delta v = v(final) - v(initial)

delta v = 0 - 20 = -20 m/s (so it is negative)

a = -20/5 = -4 m/s2 (also negative)

Slide 18 - Slide

The mass of Siem is 45 kg. What is his gravitational force, Fg

350 N

45 N

441 N

882 N

Slide 19 - Quiz

How far did this object travel after 16 seconds?

500 km

1000 km

0 km

300 km

Slide 20 - Quiz

4.2 Force, Mass and Acceleration

Moving at a constant speed gives me these 2 graphs

Notice that the first is an s,t-diagram,

The second one is a v,t-diagram

Slide 21 - Slide

4.2 Force, Mass and Acceleration

Moving at a constant acceleration gives me these 2 graphs

Notice that the first is an s,t-diagram,

The second one is a v,t-diagram

Slide 22 - Slide

4.2 Force, Mass and Acceleration

Moving at a constant negative acceleration gives me these 2 graphs

Notice that the first is an s,t-diagram,

The second one is a v,t-diagram

Slide 23 - Slide

A car is accelerating for 8 seconds, increasing by 20 m/s every second. What is his final speed?

28 m/s

160 m/s

2,5 m/s

12 m/s

Slide 24 - Quiz

4.2 Force, Mass and Acceleration

resultant force

The result of multiple forces

same direction ? add them up

opposite direction? subtract them

Slide 25 - Slide

4.2 Force, Mass and Acceleration

Slide 26 - Slide

4.2 Force, Mass and Acceleration

If the resultant force is 0 N, the object is not accelerating

The speed is constant

standing still is also a constant speed (0 m/s)

Slide 27 - Slide

4.2 Force, Mass and Acceleration

If the resultant force is + N, the object will accelerate

(+ means it is in the same direction as the movement)

Slide 28 - Slide

4.2 Force, Mass and Acceleration

If the resultant force is - N, the object will decelerate

(- means the resultant force is opposite to the direction of movement)

Slide 29 - Slide

4.2 Force, Mass and Acceleration

F = m.a

Force in N

mass in kg

a in m/s^2

Slide 30 - Slide

How can we calculate mass when knowing acceleration and force?

m = F.a

m = F/a

m = F + a

m = a/F

Slide 31 - Quiz

What kind of movement wil happen here

constant speed downwards

constant speed upwards

deceleration downwards

deceleration upwards

Slide 32 - Quiz

4.2 Force, Mass and Acceleration

Learning goals

1. You can describe the concept of acceleration and understand which measurements and units are necessary to calculate it

2. i can create and interpret v,t-diagrams relating to an object's change in motion

3. i can use an object's resultant force to determine what type of motion it has

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|What will the formula for distance be when we know work and force?

W = f/s

s= W/F

s = F/W

W = F+s

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What formulas from this chapter do you remember?

Slide 44 - Mind map

a carengine has to do work to get it to move. If the resultant force on the car is 500 N, how much work must be done to get it to go 250 m?

2 J

125000 J

750 J

0,5 J

Slide 45 - Quiz

F=m x a

F = m x g

W = F x s

a = v/t

V=s/t

E= P x t

Work

Resultant force

Gravitiational force

acceleration

Velocity

Energy

Slide 46 - Drag question

Topic 3.3: Acceleration

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