![]() ![]() The added mass is actually determined by the quasi-momentum: the added mass times the body acceleration is equal to the time derivative of the fluid quasi-momentum. That this is not the case, it becomes clear when considering the case of the fluid in a large box, where the fluid momentum is exactly zero at every moment of time. It is often erroneously stated that the added mass is determined by the momentum of the fluid. ![]() It is, however, not to be confused with relativistic mass increase. The concept can also be thought of as a classical physics analogue of the quantum mechanical concept of quasiparticles. The concept of added mass is arguably the first example of renormalization in physics. The period of such a pendulum increased relative to its period in a vacuum (even after accounting for buoyancy effects), indicating that the surrounding fluid increased the effective mass of the system. Background įriedrich Wilhelm Bessel proposed the concept of added mass in 1828 to describe the motion of a pendulum in a fluid. In general, the added mass is a second-order tensor, relating the fluid acceleration vector to the resulting force vector on the body. divided by the fluid density times the volume of the body. The dimensionless added mass coefficient is the added mass divided by the displaced fluid mass – i.e. For simplicity this can be modeled as some volume of fluid moving with the object, though in reality "all" the fluid will be accelerated, to various degrees. Added mass is a common issue because the object and surrounding fluid cannot occupy the same physical space simultaneously. In fluid mechanics, added mass or virtual mass is the inertia added to a system because an accelerating or decelerating body must move (or deflect) some volume of surrounding fluid as it moves through it. ![]()
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