A circular shock absorber, as shown in the figure below, is designed to support a set of sensitive instruments. The system consists of an aluminium circular bar of diameter d1, a hollow circular rubber insulator acting as shock absorber of diameter d2 and height h, and an aluminium circular tube. The bar and the insulator are glued to each other. The rubber insulator is bonded to the aluminium circular tube. The aluminium circular tube is fixed on the ground. You are given the following inputs F-1000 N D1-4mm D2-40 mm H-40 mm G-600 KPa T-2mm Select the best answers from those given below Q1: Evaluate the maximum axial stress in the bar, barmax" Q2: Evaluate the maximum axial stress in the vertical section of the tube, tube,max Q3: Evaluate the maximum shear stress occuring in the insulator. Tmax Q4: Assuming the bar and tube to be rigid, evaluate the maximum static vertical deflection of the bar, max- t Mio O Side view Top view MPa: ✓ MPa: MPa: Aluminium tube Aluminium bar Rubber ✓x10mm

Elements Of Electromagnetics
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Publisher:Sadiku, Matthew N. O.
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Question 11
A circular shock absorber, as shown in the figure below, is designed to support a set of sensitive instruments. The system consists of an aluminium circular bar of diameter d1, a hollow circular rubber insulator acting as shock absorber of diameter d2 and height h, and an aluminium circular tube. The bar and the insulator are glued to each other.
The rubber insulator is bonded to the aluminium circular tube. The aluminium circular tube is fixed on the ground.
You are given the following inputs:
F = 1000 N
D1 - 4 mm
D2 = 40 mm
H = 40 mm
G = 600 KPa
T = 2 mm
Select the best answers from those given below:
Q1: Evaluate the maximum axial stress in the bar, bar,max =
Q2: Evaluate the maximum axial stress in the vertical section of the tube, tube,max =
Q3: Evaluate the maximum shear stress occuring in the insulator, Tmax=
F
✓ MPa;
Q4: Assuming the bar and tube to be rigid, evaluate the maximum static vertical deflection of the bar, max =
Mo
Side view
✓ MPa;
Top view
✓ MPa;
. Rubber
Aluminium tube
Aluminium bar
✓x10-6 mm
Save Answer
Transcribed Image Text:Question 11 A circular shock absorber, as shown in the figure below, is designed to support a set of sensitive instruments. The system consists of an aluminium circular bar of diameter d1, a hollow circular rubber insulator acting as shock absorber of diameter d2 and height h, and an aluminium circular tube. The bar and the insulator are glued to each other. The rubber insulator is bonded to the aluminium circular tube. The aluminium circular tube is fixed on the ground. You are given the following inputs: F = 1000 N D1 - 4 mm D2 = 40 mm H = 40 mm G = 600 KPa T = 2 mm Select the best answers from those given below: Q1: Evaluate the maximum axial stress in the bar, bar,max = Q2: Evaluate the maximum axial stress in the vertical section of the tube, tube,max = Q3: Evaluate the maximum shear stress occuring in the insulator, Tmax= F ✓ MPa; Q4: Assuming the bar and tube to be rigid, evaluate the maximum static vertical deflection of the bar, max = Mo Side view ✓ MPa; Top view ✓ MPa; . Rubber Aluminium tube Aluminium bar ✓x10-6 mm Save Answer
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