| This Topic | Connects To | How |
|---|---|---|
| Dimensional formula of force [M^{1}$$L^{1}$$T^{-2}] | Newton's Laws (ME-02) | Force = ma; every dynamics problem uses this formula |
| Dimensional formula of energy [M^{1}$$L^{2}$$T^{-2}] | Work-Energy Theorem (ME-05) | Kinetic energy, potential energy, and work all share [M^{1}$$L^{2}$$T^{-2}] |
| Dimensional formula of pressure [M^{1}$$L^{-1}$$T^{-2}] | Fluid Mechanics (ME-10) | Bernoulli's equation requires pressure dimensions |
| Error propagation rules | Practical/Lab-based questions across all chapters | Any formula with multiplication/powers uses relative error rule |
| Significant figures | All numerical answers in NEET | Final answers must respect sig figs of given data |
| Dimensional formula of angular momentum [M^{1}$$L^{2}$$T^{-1}] | Rotational Motion (ME-07) | Conservation of angular momentum uses L = Iω |
| Dimensional formula of viscosity [M^{1}$$L^{-1}$$T^{-1}] | Fluid Mechanics — Stokes' Law | Terminal velocity derivation uses viscosity dimensions |
| SI unit of temperature (Kelvin) | Thermodynamics (TH-01) | Ideal gas law PV = nRT requires T in Kelvin |
| Unit conversion method | Every chapter with CGS/SI mixed problems | Dimensional substitution: n_{1}u_{1} = n_{2}u_{2} |
Part of ME-01 — Units, Measurements & Errors
Cross-topic Connection — Links to Other Chapters
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