Find the force induced in the bolt, F1, and force induced in the tube, F2, when the nut is tightened an additional quarter turn pastthe snug-tight condition. To do this, consider the force-deformation relationship for axially loaded members and develop acompatibility equation. By convention, a tension force is positive, and a compression force is negative.Answers:F1=! kips! kipsF2 =iFind the normal stress induced in the bolt, 0g, and normal stress induced in the tube, o2, when the nut is tightened an additionalquarter turn past the snug-tight condition. By convention, a tension stress is positive, and a compression stress is negative.Answers:01 =iksi02 =iksi A0.375-in.-diameter steel [E = 30,000 ksi] bolt (1) is placed in a copper tube (2), as shown. The copper [E = 16,000 ksi] tube has anoutside diameter of 1.000 in., a wall thickness of 0.12 in., and a length of L= 7.0 in. Rigid washers, each with a thickness of t= 0.125in., cap the ends of the copper tube. The bolt has 24 threads per inch. This means that each time the nut is turned one completerevolution, the nut advances 1/24 in. The nut is hand-tightened on the bolt until the bolt, nut, washers, and tube are just snug,meaning that all slack has been removed from the assembly, but no stress has yet been induced. What stresses are produced in thebolt and in the tube if the nut is tightened an additional quarter turn past the snug-tight condition?Rigid washerRigid washerBolt ()Tube (2)If the force induced in the bolt by advancing the nut is F1, and force induced in the tube by advancing the nut is F2, what is therelationship between F1 and F2?

Answered: Image /qna-images/answer/e78802a3-83c1-4467-9282-252cca8841f2.jpg

Find the force induced in the bolt, F1, and force induced in the tube, F2, when the nut is tightened an additional quarter turn past the snug-tight condition. To do this, consider the force-deformation relationship for axially loaded members and develop a compatibility equation. By convention, a tension force is positive, and a compression force is negative. Answers: F1= ! kips F2 = kips Find the normal stress induced in the bolt, Og, and normal stress induced in the tube, o2, when the nut is tightened an additional quarter turn past the snug-tight condition. By convention, a tension stress is positive, and a compression stress is negative. Answers: i ksi 02 = i ksi

Find the force induced in the bolt, F1, and force induced in the tube, F2, when the nut is tightened an additional quarter turn past the snug-tight condition. To do this, consider the force-deformation relationship for axially loaded members and develop a compatibility equation. By convention, a tension force is positive, and a compression force is negative. Answers: F1= ! kips F2 = kips Find the normal stress induced in the bolt, Og, and normal stress induced in the tube, o2, when the nut is tightened an additional quarter turn past the snug-tight condition. By convention, a tension stress is positive, and a compression stress is negative. Answers: i ksi 02 = i ksi

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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Concept explainers

Material Properties

Construction in civil engineering demands high strength, durability, and longevity. These targets can be achieved by better design and analysis, along with the correct choice of materials. Different materials have different properties and hence, they respond and performs differently under the various condition of external loadings. It is therefore a critical task of an engineer to select the right material based on the property that the material is supposed to function in real-time. When speaking about the property, there are different categories of material properties like chemical property, physical property, mechanical property, electrical property, magnetic property, thermal property, etc. These material properties form the basis of material selection in various applications.

Question

Find the force induced in the bolt, F1, and force induced in the tube, F2, when the nut is tightened an additional quarter turn past
the snug-tight condition. To do this, consider the force-deformation relationship for axially loaded members and develop a
compatibility equation. By convention, a tension force is positive, and a compression force is negative.
Answers:
F1=
! kips
! kips
F2 =
i
Find the normal stress induced in the bolt, 0g, and normal stress induced in the tube, o2, when the nut is tightened an additional
quarter turn past the snug-tight condition. By convention, a tension stress is positive, and a compression stress is negative.
Answers:
01 =
i
ksi
02 =
i
ksi

A0.375-in.-diameter steel [E = 30,000 ksi] bolt (1) is placed in a copper tube (2), as shown. The copper [E = 16,000 ksi] tube has an
outside diameter of 1.000 in., a wall thickness of 0.12 in., and a length of L= 7.0 in. Rigid washers, each with a thickness of t= 0.125
in., cap the ends of the copper tube. The bolt has 24 threads per inch. This means that each time the nut is turned one complete
revolution, the nut advances 1/24 in. The nut is hand-tightened on the bolt until the bolt, nut, washers, and tube are just snug,
meaning that all slack has been removed from the assembly, but no stress has yet been induced. What stresses are produced in the
bolt and in the tube if the nut is tightened an additional quarter turn past the snug-tight condition?
Rigid washer
Rigid washer
Bolt ()
Tube (2)
If the force induced in the bolt by advancing the nut is F1, and force induced in the tube by advancing the nut is F2, what is the
relationship between F1 and F2?

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