3.6 Polarisation

Cards (47)

What is the definition of a transverse wave?
Oscillations perpendicular to propagation
Match the wave type with its example:
Transverse wave ↔️ EM wave
Longitudinal wave ↔️ Compression wave
Sound waves are examples of longitudinal waves. 
True
In a transverse wave, the direction of oscillation is perpendicular
What is the definition of a longitudinal wave?
Oscillations parallel to propagation
What is the phenomenon of polarisation?
Oscillations restricted to one plane
How does polarised light differ from unpolarised light?
Oscillations in a single plane
Steps involved in producing polarised light using a polarising filter:
1️⃣ Unpolarised light passes through the filter
2️⃣ Light oscillating in the filter's plane is transmitted
3️⃣ Light oscillating in other planes is blocked
4️⃣ Polarised light is produced
Why cannot longitudinal waves be polarised?
Oscillations are parallel to propagation
Polarised light has oscillations restricted to a single plane. 
True
Polarised light oscillates in a single plane. 
True
Polarising filters block light oscillating in all planes.
False
Match the feature with its correct description:
Plane of Oscillation ↔️ All directions perpendicular to propagation (Unpolarised) ||| Single plane (Polarised)
Direction of Energy Propagation ↔️ Random (Unpolarised) ||| Consistent (Polarised)
Polarised sunglasses reduce glare by blocking reflected light. 
True
Malus' law is used in photography to reduce glare from water surfaces. 
True
LCD screens use polarised light to control the transmission of light through individual pixels
What type of light do polarising filters in photography block to reduce glare?
Light oscillating in certain planes
What is the role of polarisation in optical fibre communications?
Maintaining signal polarisation
In optical fibre communications, polarisation is maintained to improve transmission
Light waves are examples of transverse waves. 
True
In a longitudinal wave, the direction of oscillation is parallel
Only transverse waves can be polarised because their oscillations are perpendicular to the direction of energy propagation.
Unpolarised light oscillates in all directions perpendicular to the direction of propagation
What is the function of a polarising filter?
Produces polarised light
Passing unpolarised light through a polarising filter aligns the waves, resulting in polarised light oscillating in one plane
How do polarising filters reduce the intensity of unpolarised light?
Block oscillations in other planes
Match the feature with its correct description:
Plane of Oscillation ↔️ All directions perpendicular to propagation (Unpolarised) ||| Single plane (Polarised)
Propagation Direction ↔️ Random (Unpolarised) ||| Consistent (Polarised)
What is the relationship between the transmitted light intensity and the angle between the filter's orientation and the light's original polarisation plane?
$\cos^{2}(\theta)$
What does Malus' law describe?
Light intensity through a polariser
Match the angle with its effect on light transmission through a polariser:
$ \theta = 0^\circ $ ↔️ Maximum Transmission
$ \theta = 90^\circ $ ↔️ Minimum Transmission
What is the transmitted intensity when the angle between the polarisation direction and the polariser's orientation is $ 90^\circ $?
0
How do polarised sunglasses reduce glare when driving on a sunny day?
Block glare from reflective surfaces
Polarised sunglasses block horizontally polarised light to reduce glare
Match the application with how polarisation is used:
Photography ↔️ Reducing glare from water or glass
LCD Displays ↔️ Controlling light flow to produce images
Unpolarised light oscillates in a single plane.
False
Polarised light can be produced from unpolarised light.
True
The intensity of transmitted light through a polarising filter is proportional to the cosine squared of the angle between the filter's orientation and the light's polarization plane. 
True
What happens to the intensity of unpolarised light after passing through a polarising filter aligned with its oscillations?
No change
Unpolarised light oscillates in all possible directions perpendicular to the direction of propagation
When unpolarised light passes through a misaligned polariser, its intensity is significantly reduced