Karteikarten: Fundamentals of Light: Wave, Interference, and Diffraction — 24 Karten

Alle Karten

1Frage

Wave-particle duality of light

Antwort

Light exhibits both wave and particle properties.

2Frage

Wave nature of light

Antwort

Light propagates as an electromagnetic wave.

3Frage

Particle nature of light

Antwort

Light consists of photons, discrete energy quanta.

4Frage

Wave-front — definition?

Antwort

Surface of constant phase in a wave.

5Frage

Wave-front propagation

Antwort

Movement of wave-fronts indicating wave travel direction.

6Frage

Huygen’s principle — role?

Antwort

Wave-fronts are formed by secondary wavelets from each point.

7Frage

Light interference — requirement?

Antwort

Requires coherent, monochromatic sources.

8Frage

Interference pattern — cause?

Antwort

Superposition of coherent light waves.

9Frage

Young’s double slit — purpose?

Antwort

Demonstrates interference with bright and dark fringes.

10Frage

Fringe spacing formula

Antwort

Δy = (λ D)/d, relates wavelength, distance, slit separation.

11Frage

Interference conditions — key?

Antwort

Coherence, monochromaticity, proper path difference.

12Frage

Young’s experiment — significance?

Antwort

Proves wave nature of light via interference fringes.

13Frage

Interferometer — function?

Antwort

Splits and recombines light to measure small distances.

14Frage

Michelson interferometer — use?

Antwort

Detects tiny path differences, measures distances or gravitational waves.

15Frage

Gravitational waves — origin?

Antwort

Ripples in spacetime from accelerating massive objects.

16Frage

Detection of gravitational waves

Antwort

Using laser interferometers to observe spacetime distortions.

17Frage

Diffraction of light — phenomenon?

Antwort

Light bends and spreads around obstacles or through slits.

18Frage

Diffraction through slit — pattern?

Antwort

Central bright maximum with successive dimmer fringes.

19Frage

Diffraction grating — purpose?

Antwort

Disperses light into spectrum via multiple slits.

20Frage

Bragg’s law — equation?

Antwort

2 d sin θ = m λ, for constructive X-ray diffraction.

21Frage

Polarisation of light — property?

Antwort

Electric field oscillates in a single plane.

22Frage

Unpolarised vs polarised light

Antwort

Unpolarised: random electric oscillations; Polarised: single plane.

23Frage

Polarisation by reflection — condition?

Antwort

At Brewster’s angle, reflected light becomes polarised.

24Frage

Malus’s law — formula?

Antwort

I = I₀ cos²θ, describes intensity after polariser.

Teste dich mit dem Quiz

Teste dein Wissen mit 12 Fragen zu Fundamentals of Light: Wave, Interference, and Diffraction.

1. What does the wave-particle duality of light refer to?

2. What does Huygen’s principle state about a wave-front?

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