beam loaded as shown in figure 3. Using flexure and shear stress
formula, determine the following
Use a = 8 m, b = 3.9 m, c = 367 mm, d = 46 mm
Distance of the centroid to the outermost fiber of the
beam in mm.
B. Consider that a box section is used for
the beam loaded as shown in figure 3. Using flexure and shear
stress formula, determine the following
Moment of inertia of the beam about centroidal x-axis in
*10^6 mm4.
C. Consider that a box section is used for
the beam loaded as shown in figure 3. Using flexure and shear
stress formula, determine the following
Maximum flexural stress in MPa. Input
absolute value of the answer.
D.
Consider that a box section is used for the beam loaded as shown
in figure 3. Using flexure and shear stress formula, determine the
following
Maximum flexural shear stress in
MPa. Input absolute value of the answer.
- A Consider That A Box Section Is Used For The Beam Loaded As Shown In Figure 3 Using Flexure And Shear Stress Formula 1 (25.21 KiB) Viewed 11 times