Lesson 11 Chapter 4

Force and motion

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This lesson contains 24 slides, with text slides.

Lesson duration is: 45 min

Items in this lesson

Force and motion

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This lesson

Quick recap
Discussing the homework
Newtons first & second law
free fall
acceleration due to gravity
studying

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Quick recap

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Distance-time graph — speed-time graphs

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Distance-time graph — speed-time graphs

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Distance-time graph — speed-time graphs

Shows:

the distance traveled.
The gradient of the graph shows the speed of the motion.

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Which of the two is faster?

The gradient of the slope shows the speed of a movement
blue is faster

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Distance-time graph — speed-time graphs

Shows:

the speed something is traveling it.
The gradient of the graph shows the acceleration.
The area under the graph gives you the distance covered.

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Lesson 10 Chapter 4

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Key formula's for force and movement.

v = \frac{​ d ​ ​}{​ t ​}

a = \frac{​ v ^{​ f ​ ​} - v ^{​ i ​ ​} ​ ​}{​ t ​}

Speed

acceleration

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Homework exercises

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physical quanitity

Symbol for the physical quantity

unit

symbol for unit

distance

seconds

meter/second

Δv

accelration

displacement

Work

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physical quanitity

Symbol for the physical quantity

unit

symbol for unit

distance

meters

time

seconds

speed

meter/second

m/s

change in speed

Δv

meter/second

m/s

accelration

meter/second squared

m/s²

mass

kilogram

force

Newton

displacement

meter

Work

Newton- meter

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Newtons First law of motion

Newtons second law of motion

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Newtons first law

Inertia

An object at rest remains at rest, and an object in motion remains in motion at constant speed and in a straight line unless acted on by an unbalanced force.

Link

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Newtons second law

Link

F^{​ r e s ​ ​} = m \cdot a

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Newtons second law

Link

F^{​ r e s ​ ​} = m \cdot a

Fres : resultant force — Newton (N)

m: mass — kilogram (kg)

a: acceleration — m/s2

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Newtons second law

Link

F^{​ r e s ​ ​} = m \cdot a

a = \frac{​ F r e s ​ ​}{​ m ​}

Fres : resultant force — Newton (N)

m: mass — kilogram (kg)

a: acceleration — m/s2

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Free Fall

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Falling in the air

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Practice problem

A professional cyclist with a mass of 85 kg goes from cycling at a regular speed to sprinting. A trainer is measuring their speed. At moment 1 they're cycling at a speed of 8.8 m/s. at moment 2, 7.6 seconds later they're cycling at a speed of 11.9 m/s.

The magnitude of the combined resistive forces of friction and air resistance during this acceleration have a magnitude of 41 Newton. Calculate the magnitude of the foward force the cyclist applies by paddling to oppose these resistive forces

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Given

m_cyclist = 85 kg

v_i= 8.8 m/s

v_f = 11.9 m/s

t_acceleration= 7.6 s

F_{resistive forces}= 41 N

Asked

the magnitude of the forward force the cylists generates.

Working

a = \frac{​ Δ v ​ ​}{​ Δ t ​}

a = \frac{​ 1 1 . 9 - 8 . 8 ​ ​}{​ 7 . 6 ​} = 0.4079 \frac{​ m ​ ​}{​ s ^{​ 2 ​ ​} ​}

F^{​ r e s ​ ​} = m \cdot a

F^{​ r e s ​ ​} = 85 \cdot 0.4079 = 34.6711 N

F^{​ f o r w a r d ​ ​} = F^{​ r e s ​ ​} + F^{​ r e s i s t i v e ​ ​}

F^{​ f o r w a r d ​ ​} = 34.6711 + 41 = 75.67 N

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Lesson 11 Chapter 4

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