30 mmBTC0.2 mPROBLEM 3.428Two solid steel shafts, each of 30-mm diameter, areconnected by the gears shown. Knowing that G = 77.2 GPa,determine the angle through which end A rotates when atorque of magnitude T = 200 N m is applied at A..0.4 m0.2 m60 mmD0.1 m90 mm30 mmE0.5 m AluminumT = 12.5 kip.in.Brass1.5 in.BC12 in.PROBLEM 3.51The solid cylinders AB and BC are bonded together at B and areattached to fixed supports at A and C. Knowing that the modulus ofrigidity is 3.7 × 106 psi for aluminum and 5.6 × 106 psi for brass,determine the maximum shearing stress (a) in cylinder AB, (b) incylinder BC.2.0 in.18 in.

Answered: Image /qna-images/answer/504ac9d8-039b-45f0-9474-547fc5822cae.jpg

Answered: 30 mm B T C 0.2 m PROBLEM 3.42 8 Two…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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A 19-mm-diameter steel [E = 202 GPa: 0 = 11.1x10-6/°C] bolt is used to connect two rigid parts of an assembly. The bolt length is a = 175 mm. Determine the minimum clamping force that must be provided by the bolt when T1 = 21°C so that the clamping force it exerts when T2 = 58°C is at least 2.1 kN.
3/99 SS The uniform 15-kg plate is welded to the ver- tical shaft, which is supported by bearings A and B. Cal- culate the magnitude of the force supported by bearing B during application of the 120-N-m couple to the shaft. The cable from C to D prevents the plate and shaft from turning, and the weight of the assembly is carried en- tirely by bearing A. 200 mm 120 N·m A B 200 mm PROBLEM 3/99 80 mm 600 mm D 400 mm
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4 - Two circular shafts are connected via a gear assembly as shown in the figure. Shaft 1 is fixed to a wall at point A. Torque T is applied to shaft 2 at point D. Shaft 1 is made of steel with a shear modulus of 85 GPa; shaft 2 is made of aluminum with a shear modulus of 28 GPa. The other relevant paramters are indicated alongside the figure. The shafts are restrained by bearings such that they do not undergo bending (i.e., it is a case of pure torsion). Determine the angular rotation at point D relative to that at point A. Shafts L₁=1.5m; L₂=1m r=50mm; ₂= 25 mm gear radii R₁-200mm; R₂=40mm Torque T=4KN-m Li C L2 * assume the gears to be rigid T

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