Physics Batch 03 - Electromagnetism - Programming Framework Analysis

This document presents electromagnetism processes analyzed using the Programming Framework methodology. Each process is represented as a computational flowchart with standardized color coding: Red for triggers/inputs, Yellow for structures/objects, Green for processing/operations, Blue for intermediates/states, and Violet for products/outputs. Yellow nodes use black text for optimal readability, while all other colors use white text.

1. Maxwell's Equations Process

graph TD A1[Electric Field] --> B1[Maxwell's Equations Method] C1[Magnetic Field] --> D1[Field Coupling] E1[Charge Distribution] --> F1[Maxwell's Equations Analysis] B1 --> G1[Gauss's Law] D1 --> H1[Faraday's Law] F1 --> I1[Ampere's Law] G1 --> J1[Electric Flux] H1 --> K1[Electromagnetic Induction] I1 --> L1[Magnetic Circulation] J1 --> M1[Field Divergence] K1 --> L1 L1 --> N1[Current Density] M1 --> O1[Electromagnetic Wave] N1 --> P1[Field Propagation] O1 --> Q1[Maxwell's Equations Process] P1 --> R1[Maxwell's Equations Validation] Q1 --> S1[Maxwell's Equations Verification] R1 --> T1[Maxwell's Equations Result] S1 --> U1[Maxwell's Equations Analysis] T1 --> V1[Maxwell's Equations Parameters] U1 --> W1[Maxwell's Equations Output] V1 --> X1[Maxwell's Equations Analysis] W1 --> Y1[Maxwell's Equations Final Result] X1 --> Z1[Maxwell's Equations Complete] style A1 fill:#ff6b6b,color:#fff style C1 fill:#ff6b6b,color:#fff style E1 fill:#ff6b6b,color:#fff style B1 fill:#ffd43b,color:#000 style D1 fill:#ffd43b,color:#000 style F1 fill:#ffd43b,color:#000 style G1 fill:#ffd43b,color:#000 style H1 fill:#ffd43b,color:#000 style I1 fill:#ffd43b,color:#000 style J1 fill:#ffd43b,color:#000 style K1 fill:#ffd43b,color:#000 style L1 fill:#ffd43b,color:#000 style M1 fill:#ffd43b,color:#000 style N1 fill:#ffd43b,color:#000 style O1 fill:#ffd43b,color:#000 style P1 fill:#ffd43b,color:#000 style Q1 fill:#ffd43b,color:#000 style R1 fill:#ffd43b,color:#000 style S1 fill:#ffd43b,color:#000 style T1 fill:#ffd43b,color:#000 style U1 fill:#ffd43b,color:#000 style V1 fill:#ffd43b,color:#000 style W1 fill:#ffd43b,color:#000 style X1 fill:#ffd43b,color:#000 style Y1 fill:#ffd43b,color:#000 style Z1 fill:#ffd43b,color:#000 style M1 fill:#51cf66,color:#fff style N1 fill:#51cf66,color:#fff style O1 fill:#51cf66,color:#fff style P1 fill:#51cf66,color:#fff style Q1 fill:#51cf66,color:#fff style R1 fill:#51cf66,color:#fff style S1 fill:#51cf66,color:#fff style T1 fill:#51cf66,color:#fff style U1 fill:#51cf66,color:#fff style V1 fill:#51cf66,color:#fff style W1 fill:#51cf66,color:#fff style X1 fill:#51cf66,color:#fff style Y1 fill:#51cf66,color:#fff style Z1 fill:#51cf66,color:#fff style Z1 fill:#b197fc,color:#fff
Triggers & Inputs
Maxwell's Equations Methods
Maxwell's Equations Operations
Intermediates
Products
Figure 1. Maxwell's Equations Process. This electromagnetism process visualization demonstrates electromagnetic field theory and wave propagation. The flowchart shows field inputs and charge distributions, Maxwell's equations methods and field coupling, Maxwell's equations operations and analysis, intermediate results, and final Maxwell's equations outputs.

2. Electromagnetic Wave Process

graph TD A2[Wave Source] --> B2[Electromagnetic Wave Method] C2[Wave Propagation] --> D2[Field Oscillation] E2[Wave Interaction] --> F2[Electromagnetic Wave Analysis] B2 --> G2[Wave Equation] D2 --> H2[Polarization] F2 --> I2[Wave Interference] G2 --> J2[Wave Speed] H2 --> K2[Wave Amplitude] I2 --> L2[Wave Frequency] J2 --> M2[Wave Energy] K2 --> L2 L2 --> N2[Wave Momentum] M2 --> O2[Wave Transmission] N2 --> P2[Wave Reflection] O2 --> Q2[Electromagnetic Wave Process] P2 --> R2[Electromagnetic Wave Validation] Q2 --> S2[Electromagnetic Wave Verification] R2 --> T2[Electromagnetic Wave Result] S2 --> U2[Electromagnetic Wave Analysis] T2 --> V2[Electromagnetic Wave Parameters] U2 --> W2[Electromagnetic Wave Output] V2 --> X2[Electromagnetic Wave Analysis] W2 --> Y2[Electromagnetic Wave Final Result] X2 --> Z2[Electromagnetic Wave Complete] style A2 fill:#ff6b6b,color:#fff style C2 fill:#ff6b6b,color:#fff style E2 fill:#ff6b6b,color:#fff style B2 fill:#ffd43b,color:#000 style D2 fill:#ffd43b,color:#000 style F2 fill:#ffd43b,color:#000 style G2 fill:#ffd43b,color:#000 style H2 fill:#ffd43b,color:#000 style I2 fill:#ffd43b,color:#000 style J2 fill:#ffd43b,color:#000 style K2 fill:#ffd43b,color:#000 style L2 fill:#ffd43b,color:#000 style M2 fill:#ffd43b,color:#000 style N2 fill:#ffd43b,color:#000 style O2 fill:#ffd43b,color:#000 style P2 fill:#ffd43b,color:#000 style Q2 fill:#ffd43b,color:#000 style R2 fill:#ffd43b,color:#000 style S2 fill:#ffd43b,color:#000 style T2 fill:#ffd43b,color:#000 style U2 fill:#ffd43b,color:#000 style V2 fill:#ffd43b,color:#000 style W2 fill:#ffd43b,color:#000 style X2 fill:#ffd43b,color:#000 style Y2 fill:#ffd43b,color:#000 style Z2 fill:#ffd43b,color:#000 style M2 fill:#51cf66,color:#fff style N2 fill:#51cf66,color:#fff style O2 fill:#51cf66,color:#fff style P2 fill:#51cf66,color:#fff style Q2 fill:#51cf66,color:#fff style R2 fill:#51cf66,color:#fff style S2 fill:#51cf66,color:#fff style T2 fill:#51cf66,color:#fff style U2 fill:#51cf66,color:#fff style V2 fill:#51cf66,color:#fff style W2 fill:#51cf66,color:#fff style X2 fill:#51cf66,color:#fff style Y2 fill:#51cf66,color:#fff style Z2 fill:#51cf66,color:#fff style Z2 fill:#b197fc,color:#fff
Triggers & Inputs
Electromagnetic Wave Methods
Electromagnetic Wave Operations
Intermediates
Products
Figure 2. Electromagnetic Wave Process. This electromagnetism process visualization demonstrates electromagnetic wave propagation and interaction. The flowchart shows wave inputs and propagation, electromagnetic wave methods and field oscillations, electromagnetic wave operations and wave interactions, intermediate results, and final electromagnetic wave outputs.

3. Electromagnetic Induction Process

graph TD A3[Magnetic Flux] --> B3[Electromagnetic Induction Method] C3[Conductor Motion] --> D3[Flux Change] E3[Induced Current] --> F3[Electromagnetic Induction Analysis] B3 --> G3[Faraday's Law] D3 --> H3[Lenz's Law] F3 --> I3[Induction Coil] G3 --> J3[EMF Generation] H3 --> K3[Current Direction] I3 --> L3[Induction Loop] J3 --> M3[Voltage Induction] K3 --> L3 L3 --> N3[Current Flow] M3 --> O3[Power Generation] N3 --> P3[Energy Transfer] O3 --> Q3[Electromagnetic Induction Process] P3 --> R3[Electromagnetic Induction Validation] Q3 --> S3[Electromagnetic Induction Verification] R3 --> T3[Electromagnetic Induction Result] S3 --> U3[Electromagnetic Induction Analysis] T3 --> V3[Electromagnetic Induction Parameters] U3 --> W3[Electromagnetic Induction Output] V3 --> X3[Electromagnetic Induction Analysis] W3 --> Y3[Electromagnetic Induction Final Result] X3 --> Z3[Electromagnetic Induction Complete] style A3 fill:#ff6b6b,color:#fff style C3 fill:#ff6b6b,color:#fff style E3 fill:#ff6b6b,color:#fff style B3 fill:#ffd43b,color:#000 style D3 fill:#ffd43b,color:#000 style F3 fill:#ffd43b,color:#000 style G3 fill:#ffd43b,color:#000 style H3 fill:#ffd43b,color:#000 style I3 fill:#ffd43b,color:#000 style J3 fill:#ffd43b,color:#000 style K3 fill:#ffd43b,color:#000 style L3 fill:#ffd43b,color:#000 style M3 fill:#ffd43b,color:#000 style N3 fill:#ffd43b,color:#000 style O3 fill:#ffd43b,color:#000 style P3 fill:#ffd43b,color:#000 style Q3 fill:#ffd43b,color:#000 style R3 fill:#ffd43b,color:#000 style S3 fill:#ffd43b,color:#000 style T3 fill:#ffd43b,color:#000 style U3 fill:#ffd43b,color:#000 style V3 fill:#ffd43b,color:#000 style W3 fill:#ffd43b,color:#000 style X3 fill:#ffd43b,color:#000 style Y3 fill:#ffd43b,color:#000 style Z3 fill:#ffd43b,color:#000 style M3 fill:#51cf66,color:#fff style N3 fill:#51cf66,color:#fff style O3 fill:#51cf66,color:#fff style P3 fill:#51cf66,color:#fff style Q3 fill:#51cf66,color:#fff style R3 fill:#51cf66,color:#fff style S3 fill:#51cf66,color:#fff style T3 fill:#51cf66,color:#fff style U3 fill:#51cf66,color:#fff style V3 fill:#51cf66,color:#fff style W3 fill:#51cf66,color:#fff style X3 fill:#51cf66,color:#fff style Y3 fill:#51cf66,color:#fff style Z3 fill:#51cf66,color:#fff style Z3 fill:#b197fc,color:#fff
Triggers & Inputs
Electromagnetic Induction Methods
Electromagnetic Induction Operations
Intermediates
Products
Figure 3. Electromagnetic Induction Process. This electromagnetism process visualization demonstrates electromagnetic induction and power generation. The flowchart shows flux inputs and conductor motion, electromagnetic induction methods and flux changes, electromagnetic induction operations and induced currents, intermediate results, and final electromagnetic induction outputs.

Navigation

← Back to Physics Index ← Previous: Quantum Mechanics Next: Thermodynamics → Programming Framework Home

Generated using the Programming Framework methodology

Each flowchart preserves maximum detail through optimized Mermaid configuration

Gary Welz

Retired Faculty Member

John Jay College, CUNY (Department of Mathematics and Computer Science)

Borough of Manhattan Community College, CUNY

CUNY Graduate Center (New Media Lab)

Email: gwelz@jjay.cuny.edu