Uses of Optical Fibres

Comparison of Optical Fibres & Satellites

Communication using Optical Fibres

Optical fibres can be used to transmit:
- Home (landline) telephone signals
- Internet signals
- Cable television signals

In phone calls from landline phones:
- Electrical signals are converted to light pulses by an infrared laser that flashes at high speed
- Repeaters boost the signal every 30 km along the fibre
- At the receiving end, the digital signal is converted into sound

Landline Telephone Signal Path

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Sound from a landline telephone travels through optical fibres and is boosted every 30 km to the landline of the person listening

Optical fibres can transmit both visible and infrared signals
These signals travel at a speed of 2 × 10⁸ m/s
- This is not the same as the speed of light in space

Optical fibres are installed:
- In cables attached to telephone (or telegraph) poles in the street
- Underground from the service box to the telegraph pole or under the sea

Telegraph Poles

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Fibre optic cables can be found in the phone cables attached between the telephone poles and the street

Optical fibres transmit signals over long distances at high speeds
- The fastest internet available in Wales is called superfast broadband
- It uses optical fibres to transmit internet signals from the telephone exchange to a roadside cabinet in each area and then to homes or businesses
- Slower internet speeds are the continued use of old copper cables to carry the internet signal some, or all the way from the telephone exchange

Installation of Optical Fibres for High-Speed Internet

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The speed of your internet depends on whether you have all, part or none of your signal transmitted via fibre optic cable from the telephone exchange

Optical fibres have many advantages over copper cables:
- They use less energy to transmit the signal
- They need fewer boosters to increase the signal
- There is no interference with nearby cables
- They are difficult to intercept
- Their weight is lower, so they are easier to install

Fibre Optic and Copper Cables

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Copper cables are heavier and more difficult to install than fibre optic cables

Communication Using Satellites

Many types of communication use satellites or a combination of satellites and cables:
- Long-distance landline phone calls
- Mobile phone calls
- TV broadcasts

Satellites can orbit the Earth in one of two orbits:
- Geosynchronous - at an angle between the equator and the north/south poles
- Geostationary - above the equator

Geosynchronous and Geostationary Orbits

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A geostationary orbit is directly above the equator

Communication involving satellites uses microwaves or radio waves to transmit the signal from Earth to a satellite
Microwave signals must leave Earth and are reflected back to Earth from the satellite
- So, signals travel twice the height of the satellite in space
- They are not reflected from satellite to satellite

Microwave signals travel huge distances in space
- This creates a time delay

Sending & Receiving Signals via Satellite

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Signals are transmitted to a satellite and then reflected back to Earth meaning they travel twice the distance of the height of the satellite

Remember the following equations when answering questions on this topic:

The wave equation: wave speed = frequency × wavelength

The speed, distance & time equation: $speed = \frac{distance}{time}$

Where time can refer to time taken or time delay (s)

Worked example

An optical fibre between Wales and Australia has a length of 16 000 km. Information is sent along this optical fibre with a speed of 1.5 × 10⁸ m/s. A geostationary satellite is at a height of 30 000 km above the Earth.

The speed of light in space is 3 × 10⁸ m/s.

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A top-secret message needs to be sent from the Welsh government in Wales to the Australian government in Australia.

Compare the two methods of sending the message.

Answer:

Step 1: List the known quantities

Optical Fibre
- Distance = length = 16 000 km
- Speed of signal = 1.5 × 10⁸ m/s
Satellite
- Height above the Earth = 30 000 km
- Speed of signal = 3 × 10⁸ m/s

Step 2: Convert the distances into m

There are 1000 m in 1 km

Length of cable = 16 000 × 1000 = 1.6 × 10⁷ m

Height above the Earth = 30 000 × 1000 = 3 × 10⁷ m

Step 3: State the equation needed to calculate the time of transmission for both signals

$time = \frac{distance}{speed}$

Step 4: Calculate the time for transmission of the signal in the optical fibre

$time = \frac{1.6 \times 10^{7}}{1.5 \times 10^{8}}$

$time = 0.107 s$

Step 5: Calculate the total distance for transmission of the signal to and from the satellite

total distance = 2 × height of satellite

total distance = 2 × (3 × 10⁷)

total distance = 6 × 10⁷ m

Step 6: Calculate the time for transmission of the signal to and from the satellite

$time = \frac{6 \times 10^{7}}{3 \times 10^{8}}$

$time = 0.2 s$

Step 7: Compare the time taken for the transmission of the signal using both methods

The time delay of the signal in the optical fibre is less than for the satellite
OR
The time delay of the satellite is 1.9 times longer than for the optical fibre
So, the optical fibre will take less time to transmit the signal

Step 8: Compare other factors involved in sending the signal

Optical fibres are more secure than satellites
The error rate of signals transferred in optical fibres is much less than in satellites

Exam Tip

In your exam, you could be asked to compare with calculations communication via satellite and optical fibre having been given information on them.

Optical fibres are also used in medicine to see within the human body
An endoscopy is a medical procedure that uses an endoscope to look inside the body
An endoscope contains a camera on a long, thin flexible tube containing an optical fibre
- It can be inserted down your throat or up where you go to the toilet
- As a result of these images, doctors can see what might be wrong with a patient
An endoscopy is invasive, as it involves going inside a person
It may cause some damage to areas or cells it comes into contact with

An Endoscope

Endoscope, IGCSE & GCSE Physics revision notes

Endoscopes utilise total internal reflection to see inside a patient's body

CT Scans

CT stands for Computerised Tomography
CT scans use X-rays to take many images of a body section at different angles
A 3D image can be built up when all the images are put together
This 3D image can be rotated and viewed from different angles

A CT Scan

Operation of a CT Scanner, downloadable AS & A Level Physics revision notes

CT scans take 2D images from multiple positions to create a 3D image

An Example Image Created by a CT Scan

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This 3D image is viewed on a screen and can be rotated to enable doctors to see clearly inside the body

Unlike an endoscopy, a CT scan is non-invasive (no instruments are inserted into the body)
Due to the use of X-rays, it carries an exposure risk as X-rays are ionising
People should limit their exposure to X-rays because, in high amounts, they can cause damage to cells such as mutations and possibly lead to cancer

Worked example

A child is suffering from severe stomach pains. The doctor would like to perform an endoscopy or a CT scan so they can see what is going on inside the child.

Explain a disadvantage of using a CT scan to obtain medical information compared to using an endoscope.

Answer:

CT scans / X-rays are ionising
X-rays can cause damage to cells / mutations / cancer

Endoscopes use visible light which is not ionising
Visible light does not mutate cells / damage cells / cause cancer

Exam Tip

In your exam, you may be asked to compare the advantages and disadvantages of using an endoscopy or a CT scan to treat a patient. You are not expected to know a great deal of information on CT scans, as you are likely to be given some to help you answer the question.

Uses of Optical Fibres (WJEC GCSE Physics)

Revision Note

Comparison of Optical Fibres & Satellites

Communication using Optical Fibres

Landline Telephone Signal Path

Telegraph Poles

Installation of Optical Fibres for High-Speed Internet

Fibre Optic and Copper Cables

Communication Using Satellites

Geosynchronous and Geostationary Orbits

Sending & Receiving Signals via Satellite

Worked example

Exam Tip