The sphere at A is given a downward velocity vo of magnitude 6 m/s and swings in avertical plane at the end of a rope of length, I = 2 m attached to a support at 0. Determinethe angle u at which the rope will break, knowing that it can withstand a maximum tensionequal to twice the weight of the sphere.BVo

Answered: Image /qna-images/answer/62b489b1-786a-4761-84ed-4736d638a384.jpg

Answered: The sphere at A is given a downward…

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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Determine the support reactions and joint forces on the compound beam in the figure. There is a hinge at point B
plz solve it within 30-40 mins I'll give you multiple upvote
An steel shaft consists of a hollow shaft 3m long, with an outside diameter of 200mm and an inside diameter of 150mm, rigidly attached to a solid shaft 2m long with a diameter of 150mm. Determine the maximum torque which can be applied without exceeding a shearing stress of 70MPa or a twist of 4.3° in the 5m length. Use G = 83GPa. 200mm 150mm 6 6 3m 2m
An 8-m simply supported beam carries a concentrated load of 40 kN at a distance of 3.25 m from the left support. Calculate the deflection (mm) at the point of maximum moment. The flexural rigidity EL.is equal to 10000 kN-m². Enter a positive value. Just indicate the direction of the deflection in your solution.
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Question 5 T/2 В 1200 Nm A homogeneous steel shaft (G=83GPA) is loaded as shown in the above Figure. Assuming T = 300 N-m, determine the torsional force in N-m in Member BC. Note: Include sign (+/-), assuming the direction of Torsion (T) at D is positive Given: AB: Length = 1.75m, Diameter = 75mm BC: Length = 1.50m, Diameter = 60mm AB: Length = 1.00m, Diameter = 40mm
Answer fast and draw diagram.

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