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categoryهندسة مدنية
schoolبكالوريوس
event_available2026-07-13
السؤال
Transcribed Image Text:
Learning Goal:
To solve for forces in statically indeterminate bars with axial
loads.
When the number of reaction forces is greater than the
number of equilibrium equations, the system is statically
indeterminate. Solving for the reactions requires some
additional equations. These additional equations come from
considering compatibility relationships (i.e., continuity of
displacements and relationships between displacements
and loads).
For an axially loaded member, the compatibility relationship
for the deflections can be written by setting the total relative
axial displacement between the ends of the member to a
known value. The load-displacement relationship
NL
6=Σ gives another equation for the deflections.
AE
Once the internal normal force of each segment is written in
terms of the end reactions and applied loads, there is
enough information to solve for the reactions.
Figure 1
of 2
A
C B
F
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C
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Pa
Part E
Ca
loa
EXP
F
Su
Co
Help
previous 9 of 10 n
Part A Force with a known deflection
The square bar shown (Figure 1) is 2.7 in. thick and 14 ft long and is fixed supported at both ends. A load directed leftward is applied at point C, as
shown, L 10.2 ft from the left end. The modulus of elasticity is E 1.5x10 ksi .If point C moves 6=2x103 in. to the left, what is the applied force?
Express your answer with appropriate units to three significant figures.
F= 95
kip
?
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Part B-Reaction with a known load
Consider a new structure, where the thickness of the bar is reduced to 1.35 in. from C to B (it is still square) (Figure 2) and 10.2 ft. If the applied
load is F 95 kip, then what is the reaction at A? Let a positive reaction act to the right. The total length is still 14 ft.
Express your answer with appropriate units to three significant figures.
FA 56.9 kip
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Part C Load point for equal forces
Consider the structure from Part B (Figure 2). What value of a will lead to equal reaction forces at A and B?
Express your answer in feet to three significant figures.
x=11.2 ft
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