A beam has a T-shape cross section, shown below, which is subject to an internal shear force of 20 kips. A Determine the shear stress at Point A which is located 2 in. from the top. (unit: ksi, rounded to the nearest hundredths) B) Determine the maximum shear stress in the cross section. (Tip: maximum shear stress occurs on the neutral axis) (unit: ksi, rounded to the nearest hundredths) 2 in 10 in. ¹ 1) J = EGA A₁y₁ + A₂y₂ ZA 147₁ + A₂ (x₂)

A beam has a T-shape cross section, shown below, which is subject to an internal shear force of 20 kips. A Determine the shear stress at Point A which is located 2 in. from the top. (unit: ksi, rounded to the nearest hundredths) B) Determine the maximum shear stress in the cross section. (Tip: maximum shear stress occurs on the neutral axis) (unit: ksi, rounded to the nearest hundredths) 2 in 10 in. ¹ 1) J = EGA A₁y₁ + A₂y₂ ZA 147₁ + A₂ (x₂)

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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Question

please solve it clearly. strength of material

A beam has a T-shape cross section, shown below, which is subject to an internal shear force of
20 kips.
A Determine the shear stress at Point A which is located 2 in. from the top. (unit: ksi, rounded
to the nearest hundredths)
B) Determine the maximum shear stress in the cross section. (Tip: maximum shear stress
occurs on the neutral axis) (unit: ksi, rounded to the nearest hundredths)
10 in.
A
Pin
2 in.
1) y =
10 in.
L
EA
A₁ + A₂
(10) (2) (5) + (6) (2) (1+1)
(10x2) + (10x2)
g= { in

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Step 1: Write the given data with suitable variables.

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Step 2: Determine the centroid of the T section.

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Step 3: Determine the moment of inertia of the neutral axis.

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