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sci.fluid-buoyancy Calculator
Calculates buoyant force on a submerged object using Archimedes' principle: F_b = ρ_fluid × V_displaced × g. An object floats when its average density is less than the fluid — steel ships float because hull volume displaces water exceeding the ship's weight.
Inputs
Vol Cm3
Three-dimensional space occupied (m³ or L). 1 m³ = 1,000 L.
Rho Fluid
Mass per unit volume (kg/m³). Water: 1,000. Air: 1.225. Steel: 7,850. Affects buoyancy, flow, and structural loads.
Rho Obj
Mass per unit volume (kg/m³). Water: 1,000. Air: 1.225. Steel: 7,850. Affects buoyancy, flow, and structural loads.
Depth
Vertical extent downward, or thickness of a layer. For tanks: affects pressure at the base (P = ρgh).
Results
buoyant force (N)
Sample size or count used in the calculation.
weight (N)
The computed weight (gravitational force) or mass.
net force (N)
Sample size or count used in the calculation.
fraction submerged
Sample size or count used in the calculation.
pressure at depth (kPa)
The computed depth.
Archimedes
Reference formula or conversion factor shown for context.