Research Article Eulerian-Eulerian Simulation of Particle ...
7.13 Eulerian Angles Rotational degrees of freedom for a ...
Transcript of 7.13 Eulerian Angles Rotational degrees of freedom for a ...
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7.13 Eulerian Angles
• Rotational degrees of freedom for a rigid
body - three rotations.
• If one were to use Lagrange’s equations to
derive the equations for rotational motion
- one needs three generalized coordinates.
• Nine direction cosines with six constraints
given by are a possible
choice. That will need the six constraint
relations to be carried along in the
formulation. Not the most convenient.
[ ] [ ] [1]Tl l
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• One could use the angular velocity components to define the rotational kinetic energy. There do not existthree variables which specify the orientation of the body and whose time derivatives are the angular velocity components
• Need to search for a set of three coordinates
which can define the orientation of a rigid
body at every time instant;
zyx ,,
zyx ,,
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• A set of three coordinates - Euler angles.
• many choices exist in the definition of Euler
angles - Aeronautical Engineering (Greenwood’s)
y
(right wing)
x (forward)
C
C
z (downward)
x
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• xyz system attached to the rigid body; XYZ
system is the fixed system attached to ground
• Two systems are initially coincident; a series
of three rotations about the body axes,
performed in a proper sequence, allows one
to reach any desired orientation of the body
(or xyz) w.r.t. XYZ.
• First rotation: a positive rotation about Z
or z axis system
• - heading angle
zyx
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Clearly, the
rotation is
defined by:
Y, y
Z, z, z’
y’
X, x
x’
O
cos sin 0
sin cos 0
0 0 1
x X
y Y
z Z
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2nd rotation:a
positive rotation
about y’ axis
x”y”z”system
The resulting
rotation is:
-attitude angle -/2 /2
y’,y”
z’
x’
x”
O
Line of nodes
cos 0 sin
0 1 0
sin 0 cos
x x
y y
z z
z’’
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• 3rd rotation: a positive rotation about the
axis xyz system
- bank angle 0 2
x
Note that Oy’’ is in
XY plane.
When =π/2 xy
plane vertical
y’,y”
Z, z’
x’
x”,x
O
y
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1 0 0
0 cos sin
0 sin cos
x x
y y
z z
The transformation equations in more compact
form can be written as:
Rror
rr
rr
Rr
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• Since [], [], [] are orthogonal, so is the
final matrix [][][].
gives the inverse
transformation.
• Any possible orientation of the body can be
attained by performing the proper
rotations in the given order.
• Important: if the orientation is such that x-
axis is vertical no unique set of values
for and can be found.
rxRTTT
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i.e., if = /2, the angles and are
undefined. However, ( - ) is well defined
when = /2 - it is the angle between the x
and z axes. Similarly, ( + ) well defined
when = -/2.
- In such situations, called singular, only two
rotational degrees are represented.
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8.2 Angular Velocities in terms of Eulerian
Angles
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These are the relations in angular velocity and
rates of change of Euler angles. 13
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Review:
To define the orientation of a body with
respect to a fixed frame,
• let XYZ be the fixed frame
• let xyz be the frame attached to the body
• let xyz and XYZ coincide initially
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7.13 Eulerian Angles
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• Perform a sequence of three rotations in a
specified order about axes fixed to the body
and arrive at the desired (final) position -
angles called Euler angles.
• One possible sequence:
1st rotation: a positive rotation x about z (Z)
axis body axes now
- heading angle.
zyx
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2nd rotation: a positive rotation about the
axis body axes now .
- attitude angle
3rd rotation: a positive rotation about the
axis body axes now xyz (final position of
the body). - bank angle
• cumulatively .
y
zyx
x
r R
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cumulatively
cos cos sin cos sin
( sin cos (cos coscos sin
cos sin sin ) sin sin sin )
(sin sin ( cos sincos cos
cos sin cos ) sin sin cos )
x X
y Y
z Z
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7.14 Rigid Body Motion in a Plane
The equations of motion for a rigid body are:
1. Translational motion
of the center of mass
2.
P = an arbitrary point,
- position of center of mass relative to P.
crmF
p p pc
dM H mr
dt
c
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Reading assignment: Examples 7.5 to 7.10.22
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