To carry out dynamic force analysis of the four-bar mechanism shown in figure. It is required to find the inertial radius of the links. Where 002 = 20rad /s (cw), a2 = 160 rad/s2 (cw) OA= 250mm, OG2= 110mm, AB=300mm, AG3=150mm, BC=300mm, CG4-140 OC=550mm, ZAOC = 60° The masses & mass moment of inertia of the various members are: Link MMI (IG, Kgm2) 0.01872 0.01105 2 3 Mass, m 20.7kg 9.66kg
To carry out dynamic force analysis of the four-bar mechanism shown in figure. It is required to find the inertial radius of the links. Where 002 = 20rad /s (cw), a2 = 160 rad/s2 (cw) OA= 250mm, OG2= 110mm, AB=300mm, AG3=150mm, BC=300mm, CG4-140 OC=550mm, ZAOC = 60° The masses & mass moment of inertia of the various members are: Link MMI (IG, Kgm2) 0.01872 0.01105 2 3 Mass, m 20.7kg 9.66kg
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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Transcribed Image Text:To carry out dynamic force analysis of the four-bar mechanism shown in the
figure. It is required to find the inertial radius of the links.
Where 2 = 20rad /s (cw), a2 = 160 rad/s2 (cw)
OA= 250mm, OG2= 110mm, AB=300mm, AG3=150mm, BC=300mm, CG4=140mm,
OC=550mm, ZAOC = 60°
The masses & mass moment of inertia of the various members are:
Link
MMI (IG, Kgm2)
2
WN
3
4
Mass, m
20.7kg
9.66kg
23.47kg
Fit
00₂
3
F31
G3
VA
α3
0.01872
0.01105
0.0277
1
(a) Scale: 1 cm = 10 cms
F
ABA
83
Y
ABA
AB
Acceleration
polygon
Scale
1 cm = 20 m/sec²
Note: The listed scales are not perfectly correct, Consider the following values to
find out the correct scale of acceleration polygon.
V₁ = 250×20; 5m/s, VR 4 m/s, VRA = 4.75 m/s
a = 250×20²; 100m/s², a' = 250x160; 40m/s²
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