A sphere of radius 400 mm is immersed in seawater (SG 1.028) by anchoring it to thebottom of the seabed. The mooring line was observed to have a tension of 80 N. Evaluatethe specific weight of the sphere in kN/m

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Answered: A sphere of radius 400 mm is immersed…

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 shaft arrangement is shown in the figure which is acted upon by a uniformly distributed torque of To kNm/m. The total strain energy stored in shaft will be TkNm/m
A planar elastic structure is subjected to uniformly distributed load, as shown in the figure (nut drawn lo the scale) Neglecting self-weight the maximum bending moment generated in the structure (in kN.m, round off to the nearest integer), is 2.4 m 12 kN/m Parabolic profile 8.0 m
Q2)A filament 0.5m long and having a cross-sectional area of 1mm2 was stretched to breaking. If the breaking stress for the filament was found to be 109 Pa, calculate the mass which was hung on the filament to break it. Assuming the filament stretched linearly up to breaking, calculate the amount by which the filament stretched. (Young’s modulus for the material = 6 x 1010 Pa) If the assumption in (b) was justified, what might the material have been? State in one word.

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A sphere of radius 400 mm is immersed in seawater (SG 1.028) by anchoring it to the bottom of the seabed. The mooring line was observed to have a tension of 80 N. Evaluate the specific weight of the sphere in kN/m