Understanding Density
Mass, Volume, and Buoyancy
Learn About DensityDensity explains why a steel ship floats while a steel ball sinks, why hot air rises, and why oil floats on water. This fundamental property connects mass and volume, determining how materials behave in the physical world.
Common Material Densities
| Material | Density (g/cm³) | Density (kg/m³) |
|---|---|---|
| Air (sea level) | 0.0012 | 1.2 |
| Cork | 0.24 | 240 |
| Wood (oak) | 0.6-0.9 | 600-900 |
| Ice | 0.92 | 920 |
| Water | 1.00 | 1000 |
| Aluminum | 2.7 | 2700 |
| Iron | 7.87 | 7870 |
| Gold | 19.3 | 19300 |
Why Things Float or Sink
Archimedes' Principle
An object floats if its density is less than the fluid it's in:
- Wood (0.7 g/cm³) floats in water (1.0 g/cm³)
- Ice (0.92 g/cm³) floats in water
- Oil (0.8-0.9 g/cm³) floats on water
- Lead (11.3 g/cm³) sinks in water
Ships Float Because
Steel ships float because they enclose air, making their overall density less than water.
Factors Affecting Density
- Temperature: Most materials expand when heated, reducing density
- Pressure: Gases compress significantly; solids and liquids much less
- Composition: Alloys and mixtures have densities between their components
Conclusion
Density—mass per unit volume—is fundamental to understanding buoyancy, material properties, and physical behavior. Objects denser than their surrounding fluid sink; less dense objects float. This simple relationship explains phenomena from icebergs to hot air balloons.