3. The following beam is exposed to a shear force of V = 30 kN, (20...
The internal shear force V at a certain section of an aluminum beam is 8.7 kN. If the beam has the cross section shown (assume a=34 mm, b-81 mm, twtF6 mm, d=80 mm), determine: (a) the shear stress tH at point H, which is located 34 mm above the bottom surface of the tee shape (b) the maximum horizontal shear stress Trax in the tee shape Answers (a) MPa = (b) ax MPa
The internal shear force at a certain section of a steel beam is V=185 kN. The beam cross section shown in the figure has dimensions of tf=17 mm, bf=300 mm, d=394 mm, and tw=10 mm. Determine: (a) the shear stress at point A, which is located at yA=71 mm below the centroid of the wide-flange shape. (b) the maximum horizontal shear stress in the wide-flange shape. The internal shear force at a certain section of a steel beam is V=...
The internal shear force at a certain section of a steel beam is V = 205 KN. The beam cross section shown in the figure has dimensions of ty = 21 mm, b = 285 mm, d = 410 mm, and = 14 mm. Determine: (a) the shear stress at point A, which is located at y = 75 mm below the centroid of the wide-flange shape. (b) the maximum horizontal shear stress in the wide-flange shape. YA by Below,...
SO mm 50 mm - 100 mm Problem 4 - Shear Stress (25 pts) The wood beam has an allowable shear stress of Tallow = 8 MPa. Determine the maximum shear force V that can be applied to the cross section. 50 mm 200 mm SO mm
The internal shear force at a certain section of a steel beam is V = 240 kN. The beam cross section shown in the figure has dimensions of t; = 18 mm, by = 305 mm, d = 374 mm, and t = 11 mm. Determine: (a) the shear stress at point A, which is located at y; = 74 mm below the centroid of the wide-flange shape. (b) the maximum horizontal shear stress in the wide-flange shape. To VA...
The internal shear force at a certain section of a steel beam is V = 210 kN . The beam cross section shown in the figure has dimensions of t f = 17 mm , b f = 290 mm , d = 406 mm , and t w = 10 mm . Determine: (a) the shear stress at point A, which is located at y A = 78 mm below the centroid of the wide-flange shape. (b) the maximum...
50 m Question 3. The hoards are glued together to form the built-up beam. If the wood has an allowable shear stress of 3 MPa, and the glue seam at B can withstand a maximum shear stress of 15 MPa determine the maximum allowable internal shear V that 150 nm can be developed in the beam (25 points) 30 mm 50 mm
The wood beam has an allowable shear stress of 7 MPa. Determine the maximum shear force V that can be applied to the cross section. It is a 4 rectangles that make one rectangle with the left and right sides h=200mm b=50mm and the top and bottom are in line with the sides and inside each side and are h=50mm and b=100mm and V is in the center of it
The internal shear force at a certain section of a steel beam is V = 205 kN. The beam cross section shown in the figure has dimensions of ty = 21 mm, by = 285 mm, d = 410 mm, and is = 14 mm. Determine: (a) the shear stress at point. A, which is located at yA = 75 mm below the centroid of the wide-lange shape. (b) the macimum horizontal shear stress in the wide-flange shape. ЈА by...
Given a shearing force V of 150kN: -Determine the maximum, minimum and average shearing stresses in the vertical web of the I-type cross section. Compare the magnitudes of these shear stresses. What is your conclusion? (Note: the average shear stress in the web is the shear force/area of the web) -Determine the shear stress in the flange at a distance of 95mm from the tip (point X). Question 1 (30 marks) Given a shearing force V of 150 kN: Determine...