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Drag force opposes motion through a fluid. It depends on velocity, fluid properties, object shape, and reference area, crucial for vehicle and projectile design.
Formel
The calculator applies F_drag = ½ × C_d × ρ × A × v²
- A
- A value — Variable used in the calculation
Trin-for-trin guide
- 1Enter drag coefficient, reference area, fluid density, and velocity
- 2The calculator applies F_drag = ½ × C_d × ρ × A × v²
- 3Results show drag force in newtons
Løste eksempler
Input
C_d = 0.25 (car), A = 2.2 m², ρ = 1.225 kg/m³, v = 30 m/s
Resultat
F_drag ≈ 609 N
Significant at highway speeds
Almindelige fejl at undgå
- ✕Using area inconsistently (frontal vs. planform)
- ✕Applying drag formula outside its valid Reynolds number range
Ofte stillede spørgsmål
Why does drag increase with v²?
At higher speeds, impact with more fluid molecules dominates over viscous effects, creating quadratic velocity dependence.
How does shape affect drag?
Streamlined shapes have low drag coefficients; bluff objects like cubes have high coefficients, which is why cars are aerodynamic.
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