Physical Laws of Continuum Mechanics

Physical laws are empirical laws derived by repeated observation of physical phenomena. These laws established links between kinematics (of continua) and kinetics (of deformation) without considering the physical properties (such as elasticity, density, viscosity and thermal conductivity) of the continuum (of the material) itself. This means that they are valid for any continuum (any material).

     The most important physical laws that govern the mechanics of continua are:

1. Conservation of Mass - the mass of an isolated system will remain constant over time
2. Conservation of Momentum (Newton's Second Law) - rate of change of (linear/ angular) momentum is equal to the resultant (force/ moment) acting on the system
3. Conservation of Energy (First Law of Thermodynamics) - rate of change of energy is equal to the difference between rate of heat input and rate of work output

     Note that the above laws can be generalised using Reynolds' Transport Theorem.

Figure. An experiment illustrating the law of conservation of mass (adapted from Grade 8 EAP)