Statics - TAM 210 & TAM 211...b 300 mm, and m L 400 g, 300 (400 g) 1.6 kg , 75 75 300 (400 g) 2.0...
Transcript of Statics - TAM 210 & TAM 211...b 300 mm, and m L 400 g, 300 (400 g) 1.6 kg , 75 75 300 (400 g) 2.0...
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Lecture 41
April 30, 2018
Statics - TAM 211
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Announcements
Check ALL of your grades on Compass2g. Report issues
Exam grades are now posted
There will be Discussion Sections this week
Upcoming deadlines:
Tuesday (5/1)
PL HW 15
Wednesday (5/2)
Written Assignment 6
Quiz 7
CBTF (Thurs-Tues: 5/3-8)
50 minutes
Fluid Pressure -Virtual Workhttp://knowledge.wharton.upenn.edu
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Chapter 11: Virtual Work
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Goals and Objectives
Introduce the principle of virtual work
Show how it applies to determining the equilibrium
configuration of a series of pin-connected members
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Recap: Principle of Virtual WorkThe principle of virtual work states that if a body is in equilibrium, then the
algebraic sum of the virtual work done by all the forces and couple
moments acting on the body is zero for any virtual displacement of the
body. Thus, 𝛿𝑈 = 0
𝛿𝑈 = Σ 𝑭 ∙ 𝛿𝒓 + Σ 𝑴 ∙ 𝛿𝜽 = 0
For 2D:
𝛿𝑈 = Σ 𝑭 ∙ 𝛿𝐫 + Σ 𝑀 𝛿𝜃 = 0
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Procedure for Analysis
1. Draw FBD of the entire system and provide coordinate system
2. Sketch the “deflected position” of the system
3. Define position coordinates measured from a fixed point and select
the parallel line of action component and remove forces that do no
work
4. Differentiate position coordinates to obtain virtual displacement
5. Write the virtual work equation and express the virtual work of each
force/ couple moment
6. Factor out the comment virtual displacement term and solve
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Determine the tension in the cable AC.
The lamp weighs 10 lb.
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Determine the tension in the cable AC.
The lamp weighs 10 lb.
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The scissors jack supports a load P. Determine axial force in the screw necessary
for equilibrium when the jack is in the position shown. Each of the four links has a
length l and is pin-connected at its center. Points B and D can move horizontally.
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The scissors jack supports a load P. Determine axial force in the screw necessary
for equilibrium when the jack is in the position shown. Each of the four links has a
length l and is pin-connected at its center. Points B and D can move horizontally.
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Determine the mass of A and B required to hold the 400 g
desk lamp in balance for any angles θ and ϕ. Neglect the
weight of the mechanism and the size of the lamp.
Assume that pins are frictionless.
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Solution
For equilibrium, we require
0L L A A B Bm g y m g y m g y W
Use the principle of virtual work. This problem has two degrees of freedom: and .
Let and be the virtual displacements from the equilibrium positions. We assume that
all the pins are frictionless.
Here,
( )sin sin ( )cos cos
sin cos
sin cos
L L
A A
B B
y a b b y a b b
y a y a
y a y a
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Substitution gives
( )cos cos
cos cos 0
L B
L A
m g a b m g a
m g b m g a
W
or
( ) cos
cos 0 .
L B
L A
m g a b m g a
m g b m g a
W
If this relation is to hold for arbitrary and , for the general case where
cos 0 and cos 0 , we require
and .A L B L
b a bm m m m
a a
For 75 mma , 300 mmb , and 400 gLm ,
300(400 g) 1.6 kg ,
75
75 300(400 g) 2.0 kg .
75
A
B
m
m