Bernoulli Equation Calculator

Calculate fluid pressure at any point using the Bernoulli equation. Enter pressure, velocity, and height at point 1 plus velocities at point 2 to solve for P₂. Covers pitot tubes, venturi effect, and aerodynamic lift.

Pa
m/s
m
m/s
m
kg/m³
Pressure 2 – P₂
P₂ in kPa
Bernoulli Check (const)
Extended More scenarios, charts & detailed breakdown
Pa
m/s
m
m/s
m
kg/m³
P₂ (Pa)
Dynamic Pressure 1
Dynamic Pressure 2
Professional Full parameters & maximum detail
Pa
m/s
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m/s
m

Bernoulli Solution

P₂ (Pa)
Dynamic Pressure (pt 1)
Dynamic Pressure (pt 2)

Head & Lift

Static Head Diff (m)
Aerodynamic Lift Note

How to Use This Calculator

  1. Enter pressure, velocity, and height at point 1.
  2. Enter velocity and height at point 2.
  3. Select fluid (water, air, oil, or seawater).
  4. The calculator solves for P₂. Use Extended tabs for pitot tube and venturi scenarios.

Formula

P₁ + ½ρv₁² + ρgh₁ = P₂ + ½ρv₂² + ρgh₂

Rearranged: P₂ = P₁ + ½ρ(v₁² − v₂²) + ρg(h₁ − h₂)

ρ = fluid density (kg/m³), g = 9.81 m/s²

Example

Example: Water (ρ=1000), P₁=101325 Pa, v₁=2 m/s, h₁=0, v₂=5 m/s, h₂=0 → P₂ = 101325 + ½×1000×(4−25) = 90,825 Pa.

Frequently Asked Questions

  • Bernoulli's equation states that for an incompressible, inviscid fluid in steady flow: P₁ + ½ρv₁² + ρgh₁ = P₂ + ½ρv₂² + ρgh₂. It expresses conservation of energy along a streamline — as velocity increases, pressure decreases.
  • The equation assumes incompressible flow (constant density), inviscid flow (no viscosity), steady flow, and that the equation applies along a single streamline. Real fluids violate these to varying degrees, so Bernoulli is an idealization.
  • A pitot tube measures total (stagnation) pressure where v = 0. Subtracting static pressure and using Bernoulli: v = √(2ΔP/ρ). Aircraft airspeed indicators work on this principle.
  • Air travels faster over the curved upper surface of a wing (v₂ > v₁), so by Bernoulli's equation the pressure is lower above the wing than below. This pressure differential creates the upward lift force.
  • When fluid flows through a constriction (reduced cross-section), it must speed up (continuity equation). By Bernoulli, this higher velocity produces lower pressure at the throat. Carburetors, atomizers, and flow meters use this effect.

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Sources & References (5)
  1. NASA Glenn Research Center – Bernoulli's Equation — NASA Glenn Research Center
  2. OpenStax University Physics Vol. 1 Chapter 14 – Fluid Mechanics — OpenStax
  3. HyperPhysics – Bernoulli Equation — HyperPhysics / Georgia State University
  4. Engineering Toolbox – Bernoulli Equation — Engineering Toolbox
  5. Streeter V L – Fluid Mechanics, 9th Ed. — McGraw-Hill