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Kumar Rohan
Physics and Mathematics
Waves — Complete Formula
- ⭐ – Most used in JEE
- ⚠️ – Common Mistake
- 💡 – Memory Hint
Basic Wave Parameters
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| Wave Speed | [v = f\lambda] | [v] = wave speed, [f] = frequency, [\lambda] = wavelength | m/s | Most important relation ⭐ |
| Angular Frequency | [\omega = 2\pi f] | [\omega] = angular frequency | rad/s | From SHM ⭐ |
| Wave Number | [k = \dfrac{2\pi}{\lambda}] | [k] = wave number | rad/m | Spatial frequency |
| Wave Equation | [y = A\sin(kx – \omega t + \phi)] | [A] = amplitude, [\phi] = phase constant | m | General wave form ⭐ |
💡 Memory Hint:
Wave = SHM travelling in space
Wave Speed in Different Media
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| String Wave Speed | [v = \sqrt{\dfrac{T}{\mu}}] | [T] = tension, [\mu] = mass/length | m/s | Important ⭐ |
| Sound in Gas | [v = \sqrt{\dfrac{\gamma P}{\rho}}] | [\gamma] = adiabatic constant, [P] = pressure, [\rho] = density | m/s | Depends on medium ⭐ |
| Sound (Temperature form) | [v \propto \sqrt{T}] | [T] = absolute temperature | — | Temperature effect ⚠️ |
💡 Memory Hint:
Heavier medium → slower wave
Superposition of Waves
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| Resultant Displacement | [y = y_1 + y_2] | [y_1, y_2] = individual waves | m | Principle of superposition ⭐ |
| Resultant Amplitude | [A = 2A_0 \cos\dfrac{\Delta \phi}{2}] | [\Delta \phi] = phase difference | m | Interference result ⭐ |
💡 Memory Hint:
Waves add → interference pattern forms
Standing Waves
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| Node Condition | [x = n\dfrac{\lambda}{2}] | [n] = integer | m | Zero displacement ⭐ |
| Antinode Condition | [x = (2n+1)\dfrac{\lambda}{4}] | — | m | Maximum displacement |
| Frequency | [f_n = n\dfrac{v}{2L}] | [L] = length | Hz | String fixed at both ends ⭐ |
💡 Memory Hint:
Nodes → no motion, Antinodes → maximum motion
Beats
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| Beat Frequency | [f_b = f_1 – f_2] | [f_1, f_2] = frequencies | Hz |
💡 Memory Hint:
Beats = interference of close frequencies
Doppler Effect
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| General Formula | [f’ = f \dfrac{v \pm v_o}{v \mp v_s}] | [f’] = observed freq, [v_o] = observer velocity, [v_s] = source velocity | Hz | Sign convention critical ⚠️ |
| Moving Observer | [f’ = f \left(1 + \dfrac{v_o}{v}\right)] | — | Hz | Towards source ⭐ |
| Moving Source | [f’ = \dfrac{f}{1 – \dfrac{v_s}{v}}] | — | Hz | Towards observer ⭐ |
💡 Memory Hint:
- Towards → frequency increases
- Away → frequency decreases
Sound Waves
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| Intensity | [I = \dfrac{P}{A}] | [P] = power, [A] = area | W/m² | Energy per area ⭐ |
| Intensity Relation | [I \propto A^2] | — | — | Depends on amplitude |
| Decibel Scale | [\beta = 10 \log_{10}\left(\dfrac{I}{I_0}\right)] | [I_0] = reference intensity | dB | Logarithmic scale ⭐ |
💡 Memory Hint:
Loudness ∝ (amplitude)²
Organ Pipes
Closed Pipe
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| Frequency | [f_n = (2n – 1)\dfrac{v}{4L}] | [n] = 1,2,3… | Hz | Only odd harmonics ⭐ |
Open Pipe
| Concept | Formula | Symbols Meaning | SI Units | Key Notes / Tricks |
|---|---|---|---|---|
| Frequency | [f_n = n\dfrac{v}{2L}] | — | Hz | All harmonics present ⭐ |
💡 Memory Hint:
Closed pipe → odd only
Open pipe → all harmonics
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