Tarjetas de memoria: Fundamentals of Light: Wave, Interference, and Diffraction — 24 tarjetas

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1Pregunta

Wave-particle duality of light

Respuesta

Light exhibits both wave and particle properties.

2Pregunta

Wave nature of light

Respuesta

Light propagates as an electromagnetic wave.

3Pregunta

Particle nature of light

Respuesta

Light consists of photons, discrete energy quanta.

4Pregunta

Wave-front — definition?

Respuesta

Surface of constant phase in a wave.

5Pregunta

Wave-front propagation

Respuesta

Movement of wave-fronts indicating wave travel direction.

6Pregunta

Huygen’s principle — role?

Respuesta

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

7Pregunta

Light interference — requirement?

Respuesta

Requires coherent, monochromatic sources.

8Pregunta

Interference pattern — cause?

Respuesta

Superposition of coherent light waves.

9Pregunta

Young’s double slit — purpose?

Respuesta

Demonstrates interference with bright and dark fringes.

10Pregunta

Fringe spacing formula

Respuesta

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

11Pregunta

Interference conditions — key?

Respuesta

Coherence, monochromaticity, proper path difference.

12Pregunta

Young’s experiment — significance?

Respuesta

Proves wave nature of light via interference fringes.

13Pregunta

Interferometer — function?

Respuesta

Splits and recombines light to measure small distances.

14Pregunta

Michelson interferometer — use?

Respuesta

Detects tiny path differences, measures distances or gravitational waves.

15Pregunta

Gravitational waves — origin?

Respuesta

Ripples in spacetime from accelerating massive objects.

16Pregunta

Detection of gravitational waves

Respuesta

Using laser interferometers to observe spacetime distortions.

17Pregunta

Diffraction of light — phenomenon?

Respuesta

Light bends and spreads around obstacles or through slits.

18Pregunta

Diffraction through slit — pattern?

Respuesta

Central bright maximum with successive dimmer fringes.

19Pregunta

Diffraction grating — purpose?

Respuesta

Disperses light into spectrum via multiple slits.

20Pregunta

Bragg’s law — equation?

Respuesta

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

21Pregunta

Polarisation of light — property?

Respuesta

Electric field oscillates in a single plane.

22Pregunta

Unpolarised vs polarised light

Respuesta

Unpolarised: random electric oscillations; Polarised: single plane.

23Pregunta

Polarisation by reflection — condition?

Respuesta

At Brewster’s angle, reflected light becomes polarised.

24Pregunta

Malus’s law — formula?

Respuesta

I = I₀ cos²θ, describes intensity after polariser.

Ponte a prueba con el cuestionario

Pon a prueba tus conocimientos con 12 preguntas sobre 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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