// engineering
⚙ Engineering
Practical estimation tools for civil and structural work.
Electronics
Applications of Fourier 6
Diffraction Patterns (Aperture → Light)
I(theta) propto big|mathcal{F}{text{aperture}}big|^{2}
ECG Noise Filtering
y = mathcal{F}^{-1}big[,mathcal{F}(x)cdot H(f),big]
Heat Equation — Fourier's 1822 Problem
u(x,t)=sum_{n}b_nsin(npi x),e^{-alpha (npi)^2 t}
Image Filtering (1D Pixel Row)
text{low-pass / high-pass} = mathcal{F}^{-1}big[,mathcal{F}(x)cdot text{mask},big]
OFDM — 5G Sub-Carriers
s(t)=sum_{k} b_kcos(2pi k,Delta f,t)
Vowel Synthesis from Formants
text{speech} = text{glottal source} ast text{vocal-tract filter}
Fourier Waveforms 7
Custom Harmonics — Additive Synthesis
y(t)=sum_i A_isin(n_iomega t+varphi_i)
General Fourier Series (Your Coefficients)
y(t)=frac{a_0}{2}+sum_{n=1}^{N}big[a_ncos(nomega t)+b_nsin(nomega t)big]
Half-Wave Rectified Sine Series
y(t)=frac{A}{pi}+frac{A}{2}sin(omega t)-frac{2A}{pi}sum_{n=1}^{N}frac{cos(2nomega t)}{4n^{2}-1}
Sawtooth Wave Fourier Series
y(t)=frac{2A}{pi}sum_{n=1}^{N}frac{(-1)^{n+1}}{n}sin(nomega t)
Sine & Cosine Building Blocks
y(t) = Asin(2pi f t + varphi) text{and} Acos(2pi f t + varphi)
Square Wave Fourier Series
y(t)=frac{4A}{pi}sum_{k=1,3,5,dots}^{N}frac{sin(komega t)}{k}
Triangle Wave Fourier Series
y(t)=frac{8A}{pi^{2}}sum_{k=0}^{N}frac{(-1)^{k}}{(2k+1)^{2}}sin!big((2k+1)omega tbig)
Network Planning
Cable TV 1
Cable Network Planner
MST (Kruskal) + RG-11 6 dB/100m @ 750 MHz; amp when cumulative loss > budget
Civil 3
Brick Quantity Calculator
bricks = wall area / (brick face area incl. mortar joint) × (1 + wastage)
Concrete Volume Calculator
rectangular: L×W×D ; column: πr²×H ; + wastage allowance
Simple Beam Deflection Calculator (Point Load, Centre)
δ = P L³ / (48 E I) (simply supported, central point load)