🌊 Fluid Mechanics Interactive Simulation
Archimedes Principle
Bernoulli Principle
Continuity Equation
⚙️ Input Parameters
Object Volume (m³):
Object Density (kg/m³):
Fluid Density (kg/m³):
Gravity (m/s²):
Calculate Buoyancy
📊 Results & Analysis
Buoyant Force (N):
0
Object Weight (N):
0
Net Force (N):
0
Status:
-
📈 Force Analysis Oscilloscope
⚙️ Input Parameters
Pressure 1 (Pa):
Velocity 1 (m/s):
Height 1 (m):
Velocity 2 (m/s):
Height 2 (m):
Fluid Density (kg/m³):
Calculate Energy
📊 Results & Analysis
Total Energy 1 (Pa):
0
Pressure 2 (Pa):
0
Total Energy 2 (Pa):
0
Energy Conservation:
-
📈 Energy Distribution Oscilloscope
⚙️ Input Parameters
Cross-sectional Area 1 (m²):
Velocity 1 (m/s):
Cross-sectional Area 2 (m²):
Fluid Density (kg/m³):
Calculate Flow
📊 Results & Analysis
Flow Rate 1 (m³/s):
0
Velocity 2 (m/s):
0
Flow Rate 2 (m³/s):
0
Mass Flow (kg/s):
0
📈 Flow Rate Oscilloscope