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6. โข A body 'm' having relative plane motion with a reference body
'n' is shown in figure.
โข A and B are two points on body 'm'.
โข Absolute velocity vectors of points A and B relative to body 'n'
are known.
โข Let P be the point at the intersection of lines from A and B,
perpendicular, respectively to VA and VB.
โข Absolute velocity vector equation for point P can be written
with respect to points A and B as
โข VP = VA + VPA ---(1) VP = VB + VPB ---(2)
7. โข Now, since VA and VPA are each perpendicular to line PA, VP
must also be perpendicular to PA.
โข Similarly, since VB and VPB are each perpendicular to line PB,
VP must also be perpendicular to PB.
โข This is a contradiction: VP cannot, in general, be
perpendicular to both lines PA and PB.
โข What does this Mean ?
โข The apparent contradiction is resolved if VP = 0 -----(3)
โข Point P is called an Instantaneous centre of rotation ( or
instant centre, instaneous centre of zero velocity, rotopole,
centro)
8. โข One of its properties is now clear. ie., If two bodies are having
relative plane motion, the instant centre is the point at which
they are relatively at rest.
โข Substiuting, VP = 0, in Equations (1) and (2), then
VA = - VPA = VAP
VB = - VPB = VBP
โข But, VAP = ฯ x AP and VBP = ฯ x BP
โข Hence, VA = ฯ x AP -----(4)
VB = ฯ x BP -----(5)
and (VA / VB ) = (AP / BP ) --------(6)
9. โข Equations (4) and (5) reveal the second basic property of an
instant centre. At the instant, the two bodies may be regarded
as having relative rotation about the instant centre.
โข In summary, the basic properties of instant centre are:
1. Instant centre is the point at which the two bodies having
relative plane motion are relatively at rest.
2. Instant centre is the point about which the bodies are
rotating relative to one another at the instant.
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13. The Aronhold-Kennedy Theorem
๏ฌ The Aronhold-Kennedy Theorem also known as
Kennedy Theorem or Kennedy Rule, states:
๏ฌ If three bodies have relative plane motion, they
have three instant centers which lie on the same
straight line.
๏ฌ Proof:
๏ฌ The three bodies having relative plane motion
have three instant centers: N = 3(3-1)/2 = 3. It
remains to prove that they lie on the same
straight line.
14. ๏ฌ There are three bodies having relative plane
motion. The locations of instant centers 12 and
13 are known. It is to be proved that 23 lies on
the line 12-13. This will be done by showing that
to assume it does not lie on the line leads to a
contradiction.
15.
16. ๏ฌ A position for 23 has been assumed off line 12-
13. Now regarding point 23 as on body 2,
๏ฌ V23 is perpendicular to 12-23
๏ฌ Regarding 23 on body 3,
๏ฌ V23 is perpendicular to 12-23
17. ๏ฌ But it follows from the properties of an instant
center that the velocity of the instant center for
two bodies relative to a third is the same
whether regarded as a point on the first or on
the second.
๏ฌ The velocity of 23 cannot be perpendicular to
both 12-23 and 13-23 unless the poiny 23 lies
on the line 12-13.
18. Locating Instant Centers
๏ฌ The following rules are used in locating instant
centers:
๏ฌ If two links are connected by a pivot joint, the center
of the pivot is their instant center.
๏ฌ If two links have pure rolling contact, the point of
contact is their instant center.
๏ฌ If two links have sliding contact, their instant center
is along the common normal at the point of contact.
๏ฌ The three instant centers for any three links having
relative plane motion lie on the same straight line.