OA0.90●AB3.25BC2.75BD5.50CGLength[m]0.55OE1.85CEH2.20 2.581 3.15ВAngle 4.60.99Angle r = 159,81°Distance OC 2.88m-W ОА[deg] [rad/s]160.03.0m BDMass[kg]3000Present a clearly labelled free body diagram for each rod and the slider;Calculate the magnitudes and directions of all reaction forces at the instant shown usingaccelerations obtained in acceleration analysis part;Calculate the instantaneous torque, T, required to drive the mechanism at the instantshown.J BDMass moment ofinertia[kg.m²]2200 conduct a full kinematic analysis and calculate dynamic reaction forces in a linkagemechanism, calculate instantaneous torque, required to drive the mechanism470Figure 1. Left: An operating pumpjacklinkage mechanism.DGEAΦBBTHWOARight: A mechanicalFigure 1 shows a pumpjack operating at an oil well. Its representation as a linkage isalso shown in Figure 1. The pumpjack is driven by a motor attached to crank OA. A constant torqueT' is applied to the crank and the crank rotates at a constant angular velocity wOA. A force P is appliedvertically downwards at the end of the walking beam BD, which has its centre of mass at point G.To design the mechanism, a careful kinematic analysis of the mechanism needs to beconducted. To avoid mechanical failure and to provide adequate support to the mechanism, theengineer needs to analyse the reaction forces in the joints. Masses of links OA and AB are assumedto be smaller in comparison with the mass of BD and are ignored in the analysis. Magnitude of forceP is equal to 10 kN and it is directed vertically upwards.At the instant shown, perform the following tasks using the individual values of lengths OA, AB, BC,OE, CE, L, H, angle ß, angular velocity wOA, mass mBD, and moment of inertia JBD. Length of thewalking beam BD is equal to 2-BC. Distance CG from point C to the centre of mass of the walkingBCbeam is equal to

Answered: Image /qna-images/answer/613592ca-c143-4d8d-a713-f6e2965981bb.jpg

OA 0.90 AB ● 3.25 BC 2.75 BD CG Length [m] 5.50 0.55 OE 1.85 CE L H 2.20 2.581 3.15 B W OA [deg] [rad/s] 160.0 3.0 m BD Mass [kg] 3000 Present a clearly labelled free body diagram for each rod and the slider; ● Calculate the magnitudes and directions of all reaction forces at the instant shown using accelerations obtained in acceleration analysis part; • Calculate the instantaneous torque, T, required to drive the mechanism at the instant shown. JBD Mass moment of inertia [kg.m²] 2200

OA 0.90 AB ● 3.25 BC 2.75 BD CG Length [m] 5.50 0.55 OE 1.85 CE L H 2.20 2.581 3.15 B W OA [deg] [rad/s] 160.0 3.0 m BD Mass [kg] 3000 Present a clearly labelled free body diagram for each rod and the slider; ● Calculate the magnitudes and directions of all reaction forces at the instant shown using accelerations obtained in acceleration analysis part; • Calculate the instantaneous torque, T, required to drive the mechanism at the instant shown. JBD Mass moment of inertia [kg.m²] 2200

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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Question

OA
0.90
●
AB
3.25
BC
2.75
BD
5.50
CG
Length
[m]
0.55
OE
1.85
CE
H
2.20 2.581 3.15
В
Angle 4.
60.99
Angle r = 159,81°
Distance OC 2.88m
-
W ОА
[deg] [rad/s]
160.0
3.0
m BD
Mass
[kg]
3000
Present a clearly labelled free body diagram for each rod and the slider;
Calculate the magnitudes and directions of all reaction forces at the instant shown using
accelerations obtained in acceleration analysis part;
Calculate the instantaneous torque, T, required to drive the mechanism at the instant
shown.
J BD
Mass moment of
inertia
[kg.m²]
2200

conduct a full kinematic analysis and calculate dynamic reaction forces in a linkage
mechanism, calculate instantaneous torque, required to drive the mechanism
470
Figure 1. Left: An operating pumpjack
linkage mechanism.
D
G
E
A
Φ
B
B
T
H
WOA
Right: A mechanical
Figure 1 shows a pumpjack operating at an oil well. Its representation as a linkage is
also shown in Figure 1. The pumpjack is driven by a motor attached to crank OA. A constant torque
T' is applied to the crank and the crank rotates at a constant angular velocity wOA. A force P is applied
vertically downwards at the end of the walking beam BD, which has its centre of mass at point G.
To design the mechanism, a careful kinematic analysis of the mechanism needs to be
conducted. To avoid mechanical failure and to provide adequate support to the mechanism, the
engineer needs to analyse the reaction forces in the joints. Masses of links OA and AB are assumed
to be smaller in comparison with the mass of BD and are ignored in the analysis. Magnitude of force
P is equal to 10 kN and it is directed vertically upwards.
At the instant shown, perform the following tasks using the individual values of lengths OA, AB, BC,
OE, CE, L, H, angle ß, angular velocity wOA, mass mBD, and moment of inertia JBD. Length of the
walking beam BD is equal to 2-BC. Distance CG from point C to the centre of mass of the walking
BC
beam is equal to

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