Slides module 3 part a
Transcript of Slides module 3 part a
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Today:
3D continued
Book: Chapter 5.5-5.6
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Couple in 3D
Source: R.C. Hibbeler,
"Engineering Mechanics – Statics"
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A B C D
Which of these couples is different?
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Force-Couple systems
Source: R.C. Hibbeler,
"Engineering Mechanics – Statics"
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Equivalent Force-Couple system
A single resultant force and a moment that
replaces all forces and couples in a body
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Represent the resultant of the force
system acting on the pipe assembly by a
single force R at A and a couple M.
Source: R.C. Hibbeler,
"Engineering Mechanics – Statics"
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Static equilibrium of a body (Newton’s first law)
The equivalent force and moment in any point is equal to zero.
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Static equilibrium
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The cube with weight
W=24 N and
dimensions a=1 m is in
equilibrium.
Calculate F1 to F6.
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The cube with weight
W=24 N and
dimensions a=1 m is in
equilibrium.
Calculate F1 to F6.
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Constraints in 3 dimensions
Source: R.C. Hibbeler,
"Engineering Mechanics – Statics"
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Constraints in 3 dimensions
Source: R.C. Hibbeler,
"Engineering Mechanics – Statics"
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Constraints in 3 dimensions
Source: R.C. Hibbeler,
"Engineering Mechanics – Statics"
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Constraints in 3 dimensions
Source: R.C. Hibbeler,
"Engineering Mechanics – Statics"
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Constraints in 3 dimensions
Source: R.C. Hibbeler,
"Engineering Mechanics – Statics"
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Constraints in 3 dimensions
Source: R.C. Hibbeler,
"Engineering Mechanics – Statics"
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Source: R.C. Hibbeler,
"Engineering Mechanics – Statics"
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Source: R.C. Hibbeler,
"Engineering Mechanics – Statics"
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The light right-angle boom which
supports the 400-kg cylinder is
supported by three cables and a ball- and
socket joint at O attached to the vertical
x-y surface.
Determine the reactions at O and the
cable tensions.
Source: R.C. Hibbeler,
"Engineering Mechanics – Statics"
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A B
C
O
OA<OB
A particle is subjected to its own weight and
is kept in equilibrium by two cables AC and
BC. The tension in the cables are denoted TAC
and TBC respectively. Which of the following
statements is true?
A) TAC < TBC
B) TAC > TBC
C) TAC = TBC
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A B
O A
Consider the following experimental set-up
in the International Space Station (no
gravity!!!). Particle O is connected to 3 bars
(links). Bar OC is subjected to a force F.
Which of the following statements is true?
A) OA is loaded in compression
B) TOA = TOB
C) TOB = 0
D) TOC > TOA
C
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A particle is subjected to its own weight and is
kept in equilibrium by three forces with
magnitude FA, FB and FC. Points A and B are on
the y-axis and C is on the x-axis. Which of the
following is true?
A) FC>mg
B) FC>FA and FC>FB
C) FA+FB=0
D) FC=0
O A C
B
OA = OB
OC < OA
OC < OB
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Design exercise
Design an efficient (=low weight) structure to attach the road sign to the wall. Take into account that the sign has a considerable mass and is subject to wind loads.
Schiphol airport P
Long term parking P3 ?
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Design exercise
Design a structure to
attach the road sign to
the wall.
Schiphol airport P
Long term parking P3
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Design exercise
Design a structure to
attach the road sign to
the wall.
Schiphol airport P
Long term parking P3
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Design exercise
Design a structure to
attach the sign to the
wall.
Schiphol airport P
Long term parking P3
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Design exercise
Design a structure to
attach the sign to the
wall.
Schiphol airport P
Long term parking P3
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Truss structure
A framework composed of members joined
at their ends to form a rigid structure
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Model of a truss structure
- All members are connected by pin joints (even when in
reality, the members are connected by welding or riveting).
- All external forces are applied at the pin connections.
- All members are assumed to be straight.
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