Consider a wood beam (see figure) carrying a uniform load of 13.5 kN/m (which includes the weight of the beam). The length is 1.75 m and the cross section is rectangular with width 150 mm and height 300 mm. 13.5 kN/m 300 mm 150 mm 1.75 m (a) 13.5 kN/m 1.75 m - (b) (a) If the beam is simply supported as in figure part (a), calculate the maximum shear stress 7, bending stress o and the maximum max (Enter the magnitudes in MPa.) max' Tmax MPa МPа max
Consider a wood beam (see figure) carrying a uniform load of 13.5 kN/m (which includes the weight of the beam). The length is 1.75 m and the cross section is rectangular with width 150 mm and height 300 mm. 13.5 kN/m 300 mm 150 mm 1.75 m (a) 13.5 kN/m 1.75 m - (b) (a) If the beam is simply supported as in figure part (a), calculate the maximum shear stress 7, bending stress o and the maximum max (Enter the magnitudes in MPa.) max' Tmax MPa МPа max
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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![Consider a wood beam (see figure) carrying a uniform load of 13.5 kN/m (which includes the weight of the beam). The
length is 1.75 m and the cross section is rectangular with width 150 mm and height 300 mm.
13.5 kN/m
300 mm
150 mm
1.75 m
(a)
13.5 kN/m
1.75 m
(b)
(a) If the beam is simply supported as in figure part (a), calculate the maximum shear stress T,
and the maximum
max
bending stress omax: (Enter the magnitudes in MPa.)
MPa
max
MPа
max
(b) If the beam has a sliding support at right as in the figure part (b), calculate the maximum shear stress Tmax
and the
maximum bending stress omax: (Enter the magnitudes in MPa.)
MPa
max
Omax
MPa](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F8b95982c-5f2c-40ce-9980-8d05feb1e5a9%2F64e1b475-a09b-454d-bcf0-7b3516e0b386%2Fw6642tj_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Consider a wood beam (see figure) carrying a uniform load of 13.5 kN/m (which includes the weight of the beam). The
length is 1.75 m and the cross section is rectangular with width 150 mm and height 300 mm.
13.5 kN/m
300 mm
150 mm
1.75 m
(a)
13.5 kN/m
1.75 m
(b)
(a) If the beam is simply supported as in figure part (a), calculate the maximum shear stress T,
and the maximum
max
bending stress omax: (Enter the magnitudes in MPa.)
MPa
max
MPа
max
(b) If the beam has a sliding support at right as in the figure part (b), calculate the maximum shear stress Tmax
and the
maximum bending stress omax: (Enter the magnitudes in MPa.)
MPa
max
Omax
MPa
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