# -*- encoding: utf-8 -*-
from __future__ import print_function, division
__all__ = ['RigidBody']
from sympy import sympify
from sympy.physics.vector import Point, ReferenceFrame, Dyadic
from sympy.utilities.exceptions import SymPyDeprecationWarning
[docs]class RigidBody(object):
"""An idealized rigid body.
This is essentially a container which holds the various components which
describe a rigid body: a name, mass, center of mass, reference frame, and
inertia.
All of these need to be supplied on creation, but can be changed
afterwards.
Attributes
==========
name : string
The body's name.
masscenter : Point
The point which represents the center of mass of the rigid body.
frame : ReferenceFrame
The ReferenceFrame which the rigid body is fixed in.
mass : Sympifyable
The body's mass.
inertia : (Dyadic, Point)
The body's inertia about a point; stored in a tuple as shown above.
Examples
========
>>> from sympy import Symbol
>>> from sympy.physics.mechanics import ReferenceFrame, Point, RigidBody
>>> from sympy.physics.mechanics import outer
>>> m = Symbol('m')
>>> A = ReferenceFrame('A')
>>> P = Point('P')
>>> I = outer (A.x, A.x)
>>> inertia_tuple = (I, P)
>>> B = RigidBody('B', P, A, m, inertia_tuple)
>>> # Or you could change them afterwards
>>> m2 = Symbol('m2')
>>> B.mass = m2
"""
def __init__(self, name, masscenter, frame, mass, inertia):
if not isinstance(name, str):
raise TypeError('Supply a valid name.')
self._name = name
self.masscenter = masscenter
self.mass = mass
self.frame = frame
self.inertia = inertia
self.potential_energy = 0
def __str__(self):
return self._name
__repr__ = __str__
@property
def frame(self):
return self._frame
@frame.setter
def frame(self, F):
if not isinstance(F, ReferenceFrame):
raise TypeError("RigdBody frame must be a ReferenceFrame object.")
self._frame = F
def get_frame(self):
SymPyDeprecationWarning(
feature="Method sympy.physics.mechanics." +
"RigidBody.get_frame(self)",
useinstead="property sympy.physics.mechanics." +
"RigidBody.frame",
deprecated_since_version="1.0", issue=9800).warn()
return self.frame
def set_frame(self, F):
SymPyDeprecationWarning(
feature="Method sympy.physics.mechanics." +
"RigidBody.set_frame(self, F)",
useinstead="property sympy.physics.mechanics." +
"RigidBody.frame",
deprecated_since_version="1.0", issue=9800).warn()
self.frame = F
@property
def masscenter(self):
return self._masscenter
@masscenter.setter
def masscenter(self, p):
if not isinstance(p, Point):
raise TypeError("RigidBody center of mass must be a Point object.")
self._masscenter = p
def get_masscenter(self):
SymPyDeprecationWarning(
feature="Method sympy.physics.mechanics." +
"RigidBody.get_masscenter(self)",
useinstead="property sympy.physics.mechanics." +
"RigidBody.masscenter",
deprecated_since_version="1.0", issue=9800).warn()
return self.masscenter
def set_masscenter(self, p):
SymPyDeprecationWarning(
feature="Method sympy.physics.mechanics." +
"RigidBody.set_masscenter(self, p)",
useinstead="property sympy.physics.mechanics." +
"RigidBody.masscenter",
deprecated_since_version="1.0", issue=9800).warn()
self.masscenter = p
@property
def mass(self):
return self._mass
@mass.setter
def mass(self, m):
self._mass = sympify(m)
def get_mass(self):
SymPyDeprecationWarning(
feature="Method sympy.physics.mechanics." +
"RigidBody.get_mass(self)",
useinstead="property sympy.physics.mechanics.RigidBody.mass",
deprecated_since_version="1.0", issue=9800).warn()
return self.mass
def set_mass(self, m):
SymPyDeprecationWarning(
feature="Method sympy.physics.mechanics." +
"RigidBody.set_mass(self, m)",
useinstead="property sympy.physics.mechanics.RigidBody.mass",
deprecated_since_version="1.0", issue=9800).warn()
self.mass = m
@property
def inertia(self):
return (self._inertia, self._inertia_point)
@inertia.setter
def inertia(self, I):
if not isinstance(I[0], Dyadic):
raise TypeError("RigidBody inertia must be a Dyadic object.")
if not isinstance(I[1], Point):
raise TypeError("RigidBody inertia must be about a Point.")
self._inertia = I[0]
self._inertia_point = I[1]
# have I S/O, want I S/S*
# I S/O = I S/S* + I S*/O; I S/S* = I S/O - I S*/O
# I_S/S* = I_S/O - I_S*/O
from sympy.physics.mechanics.functions import inertia_of_point_mass
I_Ss_O = inertia_of_point_mass(self.mass,
self.masscenter.pos_from(I[1]),
self.frame)
self._central_inertia = I[0] - I_Ss_O
def get_inertia(self):
SymPyDeprecationWarning(
feature="Method sympy.physics.mechanics." +
"RigidBody.get_inertia(self)",
useinstead="property sympy.physics.mechanics." +
"RigidBody.inertia",
deprecated_since_version="1.0", issue=9800).warn()
return self.inertia
def set_inertia(self, I):
SymPyDeprecationWarning(
feature="Method sympy.physics.mechanics." +
"RigidBody.set_inertia(self, I)",
useinstead="property sympy.physics.mechanics." +
"RigidBody.inertia",
deprecated_since_version="1.0", issue=9800).warn()
self.inertia = I
@property
def central_inertia(self):
"""The body's central inertia dyadic."""
return self._central_inertia
[docs] def linear_momentum(self, frame):
""" Linear momentum of the rigid body.
The linear momentum L, of a rigid body B, with respect to frame N is
given by
L = M * v*
where M is the mass of the rigid body and v* is the velocity of
the mass center of B in the frame, N.
Parameters
==========
frame : ReferenceFrame
The frame in which linear momentum is desired.
Examples
========
>>> from sympy.physics.mechanics import Point, ReferenceFrame, outer
>>> from sympy.physics.mechanics import RigidBody, dynamicsymbols
>>> M, v = dynamicsymbols('M v')
>>> N = ReferenceFrame('N')
>>> P = Point('P')
>>> P.set_vel(N, v * N.x)
>>> I = outer (N.x, N.x)
>>> Inertia_tuple = (I, P)
>>> B = RigidBody('B', P, N, M, Inertia_tuple)
>>> B.linear_momentum(N)
M*v*N.x
"""
return self.mass * self.masscenter.vel(frame)
[docs] def angular_momentum(self, point, frame):
"""Returns the angular momentum of the rigid body about a point in the
given frame.
The angular momentum H of a rigid body B about some point O in a frame
N is given by:
H = I·w + r×Mv
where I is the central inertia dyadic of B, w is the angular velocity
of body B in the frame, N, r is the position vector from point O to the
mass center of B, and v is the velocity of the mass center in the
frame, N.
Parameters
==========
point : Point
The point about which angular momentum is desired.
frame : ReferenceFrame
The frame in which angular momentum is desired.
Examples
========
>>> from sympy.physics.mechanics import Point, ReferenceFrame, outer
>>> from sympy.physics.mechanics import RigidBody, dynamicsymbols
>>> M, v, r, omega = dynamicsymbols('M v r omega')
>>> N = ReferenceFrame('N')
>>> b = ReferenceFrame('b')
>>> b.set_ang_vel(N, omega * b.x)
>>> P = Point('P')
>>> P.set_vel(N, 1 * N.x)
>>> I = outer(b.x, b.x)
>>> B = RigidBody('B', P, b, M, (I, P))
>>> B.angular_momentum(P, N)
omega*b.x
"""
I = self.central_inertia
w = self.frame.ang_vel_in(frame)
m = self.mass
r = self.masscenter.pos_from(point)
v = self.masscenter.vel(frame)
return I.dot(w) + r.cross(m * v)
[docs] def kinetic_energy(self, frame):
"""Kinetic energy of the rigid body
The kinetic energy, T, of a rigid body, B, is given by
'T = 1/2 (I omega^2 + m v^2)'
where I and m are the central inertia dyadic and mass of rigid body B,
respectively, omega is the body's angular velocity and v is the
velocity of the body's mass center in the supplied ReferenceFrame.
Parameters
==========
frame : ReferenceFrame
The RigidBody's angular velocity and the velocity of it's mass
center are typically defined with respect to an inertial frame but
any relevant frame in which the velocities are known can be supplied.
Examples
========
>>> from sympy.physics.mechanics import Point, ReferenceFrame, outer
>>> from sympy.physics.mechanics import RigidBody
>>> from sympy import symbols
>>> M, v, r, omega = symbols('M v r omega')
>>> N = ReferenceFrame('N')
>>> b = ReferenceFrame('b')
>>> b.set_ang_vel(N, omega * b.x)
>>> P = Point('P')
>>> P.set_vel(N, v * N.x)
>>> I = outer (b.x, b.x)
>>> inertia_tuple = (I, P)
>>> B = RigidBody('B', P, b, M, inertia_tuple)
>>> B.kinetic_energy(N)
M*v**2/2 + omega**2/2
"""
rotational_KE = (self.frame.ang_vel_in(frame) & (self.central_inertia &
self.frame.ang_vel_in(frame)) / sympify(2))
translational_KE = (self.mass * (self.masscenter.vel(frame) &
self.masscenter.vel(frame)) / sympify(2))
return rotational_KE + translational_KE
@property
def potential_energy(self):
"""The potential energy of the RigidBody.
Examples
========
>>> from sympy.physics.mechanics import RigidBody, Point, outer, ReferenceFrame
>>> from sympy import symbols
>>> M, g, h = symbols('M g h')
>>> b = ReferenceFrame('b')
>>> P = Point('P')
>>> I = outer (b.x, b.x)
>>> Inertia_tuple = (I, P)
>>> B = RigidBody('B', P, b, M, Inertia_tuple)
>>> B.potential_energy = M * g * h
>>> B.potential_energy
M*g*h
"""
return self._pe
@potential_energy.setter
def potential_energy(self, scalar):
"""Used to set the potential energy of this RigidBody.
Parameters
==========
scalar: Sympifyable
The potential energy (a scalar) of the RigidBody.
Examples
========
>>> from sympy.physics.mechanics import Particle, Point, outer
>>> from sympy.physics.mechanics import RigidBody, ReferenceFrame
>>> from sympy import symbols
>>> b = ReferenceFrame('b')
>>> M, g, h = symbols('M g h')
>>> P = Point('P')
>>> I = outer (b.x, b.x)
>>> Inertia_tuple = (I, P)
>>> B = RigidBody('B', P, b, M, Inertia_tuple)
>>> B.potential_energy = M * g * h
"""
self._pe = sympify(scalar)
def set_potential_energy(self, scalar):
SymPyDeprecationWarning(
feature="Method sympy.physics.mechanics." +
"RigidBody.set_potential_energy(self, scalar)",
useinstead="property sympy.physics.mechanics." +
"RigidBody.potential_energy",
deprecated_since_version="1.0", issue=9800).warn()
self.potential_energy = scalar
