A viscous free fall example

Introduction

We consider an object inside a vertical cylinder which contains a viscous fluid. The fluid generates a drag force which limits the speed of the solid and we assume that the force depends linearily on the object speed:

m \frac{dv}{dt} = - m g - c v

for any t \in [0, t_{max}] where:

  • v is the speed [m/s],

  • t is the time [s],

  • t_{max} is the maximum time [s],

  • g is the gravitational acceleration [m.s^{-2}],

  • m is the mass [kg],

  • c is the linear drag coefficient [kg.s^{-1}].

The previous differential equation has the exact solution:

z(t) = z_0 + v_{inf} t + \tau (v_0 - v_{inf})\left(1 - e^{-\frac{t}{\tau}}\right)

for any t \in [0, t_{max}]

where:

  • z is the altitude above the surface [m],

  • z_0 is the initial altitude [m],

  • v_0 is the initial speed (upward) [m.s^{-1}],

  • v_{inf} is the limit speed [m.s^{-1}]:

v_{inf}=-\frac{m g}{c}

  • \tau is time caracteristic [s]:

\tau=\frac{m}{c}.

The stationnary speed limit at infinite time is equal to v_{inf}:

\lim_{t\rightarrow+\infty} v(t)= v_{inf}.

When there is no drag, i.e. when c=0, the trajectory depends quadratically on t:

z(t) = z_0 + v_0 t -g t^2

for any t \in [0, t_{max}].

Furthermore when the solid touches the ground, we ensure that the altitude remains nonnegative i.e. the final altitude is:

y(t) = \max(z(t),0)

for any t \in [0, t_{max}].

Probabilistic model

The parameters z_0, v_0, m and c are probabilistic:

  • z_0 \sim \mathcal{U}(100, 150),

  • v_0 \sim \mathcal{N}(55, 10),

  • m \sim \mathcal{N}(80, 8),

  • c \sim \mathcal{U}(0, 30).

References

  • Steven C. Chapra. Applied numerical methods with Matlab for engineers and scientists, Third edition. 2012. Chapter 7, “Optimization”, p.182.

Load the use case

We can load this classical model from the use cases module as follows :

>>> from openturns.usecases import viscous_free_fall as viscous_free_fall
>>> # Load the viscous free fall model
>>> fm = viscous_free_fall.ViscousFreeFall()

API documentation

See ViscousFreeFall.

Examples based on this use case