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Kumar Rohan
Physics and Mathematics
Wave Optics — Complete Formula
Superposition Principle
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| Resultant Displacement | [y = y_1 + y_2] | [y_1, y_2] = individual wave displacements | m | Basic principle ⭐ |
💡 Memory Hint:
Waves overlap → add displacements
Interference of Light
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| Path Difference | [\Delta x = n\lambda] | [\Delta x] = path difference, [\lambda] = wavelength | m | Constructive interference ⭐ |
| Destructive Condition | [\Delta x = (2n+1)\dfrac{\lambda}{2}] | [n] = integer | m | Destructive interference ⭐ |
| Fringe Width | [\beta = \dfrac{\lambda D}{d}] | [\beta] = fringe width, [D] = screen distance, [d] = slit separation | m | Very important ⭐ |
| Position of Fringes | [y_n = n\beta] | [y_n] = position | m | Regular spacing |
💡 Memory Hint:
Fringe width ∝ wavelength & distance
Young’s Double Slit Experiment (YDSE)
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| Fringe Width | [\beta = \dfrac{\lambda D}{d}] | — | m | Core formula ⭐ |
| Intensity | [I = I_1 + I_2 + 2\sqrt{I_1 I_2}\cos\phi] | [\phi] = phase difference | W/m² | Interference pattern ⭐ |
💡 Memory Hint:
Equal intensities → clear fringes
Diffraction (Single Slit)
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| Condition (Minima) | [a\sin\theta = n\lambda] | [a] = slit width | — | Dark fringes ⭐ |
| Angular Width | [\theta = \dfrac{\lambda}{a}] | — | rad | Central maximum ⭐ |
| Linear Width | [W = \dfrac{2\lambda D}{a}] | [W] = width | m | Very important ⭐ |
💡 Memory Hint:
Narrow slit → wider diffraction
Resolving Power
Microscope
| Concept | Formula | Symbols Meaning | SI Units | Key Notes |
|---|---|---|---|---|
| Resolving Power | [RP = \dfrac{1}{d} = \dfrac{2\mu \sin\theta}{\lambda}] | [\mu] = refractive index | — | Smaller λ → better resolution ⭐ |
Telescope
| Concept | Formula | Symbols Meaning | SI Units | Key Notes |
|---|---|---|---|---|
| Resolving Power | [RP = \dfrac{D}{1.22\lambda}] | [D] = aperture | — | Larger aperture → better ⭐ |
💡 Memory Hint:
Better resolution → smaller wavelength
Polarization
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| Malus Law | [I = I_0 \cos^2\theta] | [I_0] = initial intensity | W/m² | Polarization effect ⭐ |
| Brewster’s Law | [\tan\theta_B = n] | [\theta_B] = Brewster angle | — | No reflection ⭐ |
💡 Memory Hint:
Polarization proves light is transverse
Coherent Sources
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| Condition | Same frequency & constant phase | — | — | Needed for interference ⭐ |
💡 Memory Hint:
Stable phase → stable pattern
Intensity Relations
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| Intensity ∝ Amplitude² | [I \propto A^2] | [A] = amplitude | — | Basic relation ⭐ |
| Max Intensity | [I_{max} = ( \sqrt{I_1} + \sqrt{I_2} )^2] | — | W/m² | Constructive ⭐ |
| Min Intensity | [I_{min} = ( \sqrt{I_1} – \sqrt{I_2} )^2] | — | W/m² | Destructive ⭐ |
💡 Memory Hint:
Brightness depends on amplitude squared
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