A WT305 × 41 standard steel shape is used to support the loads shown. Assume w = 48 kN/m, LAB = 2.0 m, LBC = 4.0 m, and LCD = 2.0 m. Consider the entire 8.0 m length of the beam and determine: (a) the maximum tensile bending stress at any location along the beam (enter a positive answer), and (b) the maximum compressive bending stress at any location along the beam (enter a negative answer).
A WT305 × 41 standard steel shape is used to support the loads shown. Assume w = 48 kN/m, LAB = 2.0 m, LBC = 4.0 m, and LCD = 2.0 m. Consider the entire 8.0 m length of the beam and determine: (a) the maximum tensile bending stress at any location along the beam (enter a positive answer), and (b) the maximum compressive bending stress at any location along the beam (enter a negative answer).
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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A WT305 × 41 standard steel shape is used to support the loads shown. Assume w = 48 kN/m, LAB = 2.0 m, LBC = 4.0 m, and LCD = 2.0 m. Consider the entire 8.0 m length of the beam and determine: (a) the maximum tensile bending stress at any location along the beam (enter a positive answer), and (b) the maximum compressive bending stress at any location along the beam (enter a negative answer).
![A WT305 x 41 standard steel shape is used to support the loads shown. Assume w = 48 kN/m, LAB = 2.0 m, LBC = 4.0 m, and LcD = 2.0 m.
Consider the entire 8.0 m length of the beam and determine:
(a) the maximum tensile bending stress at any location along the beam (enter a positive answer), and
(b) the maximum compressive bending stress at any location along the beam (enter a negative answer).
LAB
LBC
LCD
WT305 x 41
Answer:
MPa
(a) Omax,T =
MPа
(b) Omax,C =](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8fd158cc-f2cd-40cf-aca7-ade3f1ef38c9%2F094dc0cb-23f0-4921-b0e3-7a5ab9b69b21%2Furnaelh_processed.png&w=3840&q=75)
Transcribed Image Text:A WT305 x 41 standard steel shape is used to support the loads shown. Assume w = 48 kN/m, LAB = 2.0 m, LBC = 4.0 m, and LcD = 2.0 m.
Consider the entire 8.0 m length of the beam and determine:
(a) the maximum tensile bending stress at any location along the beam (enter a positive answer), and
(b) the maximum compressive bending stress at any location along the beam (enter a negative answer).
LAB
LBC
LCD
WT305 x 41
Answer:
MPa
(a) Omax,T =
MPа
(b) Omax,C =
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