For the cross section area shown in the íiguro below, IV = 20 kN and M =10 kN m.
For the cross section area shown in the íiguro below, IV = 20 kN and M =10 kN m.
The point at which the bending stress is maximum
A
B
C
D
QUESTION 2
For the point of maximum bending stress, the distance to neutral axis =
150mm 180 mm 200mm 230 mm
QUESTION 3
lx = [m4]
0.509 x10-3 3.886 x10-3 6.147x10-3 5.913 x10-4
QUESTION 4
The absolute maximum bending stress [MPa]
1.65 392 8.11 5.74
QUESTION 5
The point at which the shear stress is maximum
A B C D
QUESTION 6
For calculation of transverse shear, Qc[m3]
6.914x10-3 3337x10-3 1.83x10-3 5.271x10-3
QUESTION 7
The absolute maximum shearing stress [MPa]
6.4 1.2 3.7 5.6
Homework Answers
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For the cross section area shown in the íiguro below, IV = 20 kN and M =10 kN m.
With a U cross section, is subjected to uniformly distributed force 11 kN/m and a concentrated load of 12 kN as shown
With a U cross section, is subjected to uniformly distributed force 11 kN/m and a concentrated load of 12 kN as shown. (a) the reaction at supports A and B, (b) sketch the shear diagram and the moment diagram, (c) determine the location of neutral axis of the cross section and calculate its area moment of inertia about the neutral axis, and (d) determine absolute maximum bending stress and (e) absolute maximum transverse shear stress.
4. A T-shaped cross-sectional beam is loaded as shown in the figure. Determine the following a....
4. A T-shaped cross-sectional beam is loaded as shown in the figure. Determine the following a. Sketch the internal shear force and bending moment diagrams for the beam. b. Calculate the maximum magnitude of the bending stress. Indicate where this occurs on the cross-section and along the length of the beam. c. Calculate the transverse shearing stress at the centroid of the cross-section using the maximum magnitude of the transverse shear force. - 200 mm 8 KN 1.5 kN/m 20...
For the beam shown, determine the maximum shear stress Clearly state where this occurs. 6.5 kN/m...
For the beam shown, determine the maximum shear stress Clearly state where this occurs. 6.5 kN/m 4 m4 m ??119.5 '5 , 150mm min 30 mm 150 mm 30 mm
For the beam and loading shown below, 3 kN 3 KN 1.8 kN/m SO mm B...
For the beam and loading shown below, 3 kN 3 KN 1.8 kN/m SO mm B 300 mm D 1 - -1.5 m 1,5 m - 1.5 m Q2-PART@) Determine the reaction force at A = ? (in kN) Q2-PART(b) Determine the moment inertia along the horizontal neutral axis for the cross section of the beam = ? (in 106 mm) Q2-PARI(C) Determine the maximum normal stress due to bending on a transverse section at C = ? (in MPa)
Design the cantilever beam below to take the maximum load. Calculate the load in KN to...
Design the cantilever beam below to take the maximum load. Calculate the load in KN to 2 decimal places, if the allowable bending stress is allow = 162 MPa and the allowable shear stress is Tallow = 95 MPa. Also I = 11.918 x 10-6 m4 and the y_bar = 0.04875 m from the top of the t-beam. 150 mm 15 mm T150 mm Hi 15 mm P P 2 m 2 m
The beam has the loading and the shear diagram as shown. Consider a cross section between...
The beam has the loading and the shear diagram as shown. Consider a cross section between C and D, determine: • the maximum shearing stress in that cross section, • the shearing stress at point Hon the web of the beam at the same cross section. 15 kN 8 KN 9 KN 12 KN -180 mm 40 mm А B C D E F H 3 m + 2m +2 m-42 m 4 m T 180 mm 12 KN 9...
The beam has the cross-sectional area shown. If the loading intensity o 25 kN/m and the...
The beam has the cross-sectional area shown. If the loading intensity o 25 kN/m and the length of the beam L is 3 m, answer the questions that follow: 0 TALALRATEATAITTAAAAATTAAAAAL 100 mm 25 mm 25 mm 75 mm 75 mm 25 mm Determine the maximumm bending moment in the bearm in [kNm] Determine the position of the neutral axis, as a distance in [mm] measured from the bottom of the beam i.e. determine V Determine the area moment of...
20 KN 3 kN/m 3 2 KN- y, 2 kN-m 12.5 mm 200 mm? Z B...
20 KN 3 kN/m 3 2 KN- y, 2 kN-m 12.5 mm 200 mm? Z B 150 mm 121.43 mm 1.5 m 1.5 m 2.2 m 12.5 mm Part [1] (a.) Construct shear and bending moment diagrams. Show all work. Label completely. (b.) Determine the maximum value of the transverse shear force (in magnitude) and where it occurs. 'Box' answers. (c.) Determine the maximum values of the bending moment (both positive and negative) and where each occurs. 'Box' answers. Part...
Q4. (20 pts) A kN/m BEN. X mm The beam has the cross-sectional area and loaded...
Q4. (20 pts) A kN/m BEN. X mm The beam has the cross-sectional area and loaded as shown. Draw the bending and shear force diagrams. Find the maximum bending stress in the beam. التسعي HO Z mm Y mm 3 m Z mm A=40 X=75 B=25 Y=125 Z=10
PLEASE PRINT Question Four The beam has a cross section shown below and is subjected to...
PLEASE PRINT
Question Four The beam has a cross section shown below and is subjected to a 1 kN load as shown. The beam AB has a length of 3 m. a) Draw the shear force and bending moment diagrams. b) Determine the maximum bending stress. c) Where is the location of the maximum stress in b) above? 30 mm 30 mm 30 mm 50 mm t 40 mm 50 m 40mm
4. A T-shaped cross-sectional beam is loaded as shown in the figure. Determine the following a. Sketch the internal shear force and bending moment diagrams for the beam. b. Calculate the maximum magnitude of the bending stress. Indicate where this occurs on the cross-section and along the length of the beam. c. Calculate the transverse shearing stress at the centroid of the cross-section using the maximum magnitude of the transverse shear force. - 200 mm 8 KN 1.5 kN/m 20...
For the beam shown, determine the maximum shear stress Clearly state where this occurs. 6.5 kN/m 4 m4 m ??119.5 '5 , 150mm min 30 mm 150 mm 30 mm
For the beam and loading shown below, 3 kN 3 KN 1.8 kN/m SO mm B 300 mm D 1 - -1.5 m 1,5 m - 1.5 m Q2-PART@) Determine the reaction force at A = ? (in kN) Q2-PART(b) Determine the moment inertia along the horizontal neutral axis for the cross section of the beam = ? (in 106 mm) Q2-PARI(C) Determine the maximum normal stress due to bending on a transverse section at C = ? (in MPa)
Design the cantilever beam below to take the maximum load. Calculate the load in KN to 2 decimal places, if the allowable bending stress is allow = 162 MPa and the allowable shear stress is Tallow = 95 MPa. Also I = 11.918 x 10-6 m4 and the y_bar = 0.04875 m from the top of the t-beam. 150 mm 15 mm T150 mm Hi 15 mm P P 2 m 2 m
The beam has the loading and the shear diagram as shown. Consider a cross section between C and D, determine: • the maximum shearing stress in that cross section, • the shearing stress at point Hon the web of the beam at the same cross section. 15 kN 8 KN 9 KN 12 KN -180 mm 40 mm А B C D E F H 3 m + 2m +2 m-42 m 4 m T 180 mm 12 KN 9...
The beam has the cross-sectional area shown. If the loading intensity o 25 kN/m and the length of the beam L is 3 m, answer the questions that follow: 0 TALALRATEATAITTAAAAATTAAAAAL 100 mm 25 mm 25 mm 75 mm 75 mm 25 mm Determine the maximumm bending moment in the bearm in [kNm] Determine the position of the neutral axis, as a distance in [mm] measured from the bottom of the beam i.e. determine V Determine the area moment of...
20 KN 3 kN/m 3 2 KN- y, 2 kN-m 12.5 mm 200 mm? Z B 150 mm 121.43 mm 1.5 m 1.5 m 2.2 m 12.5 mm Part [1] (a.) Construct shear and bending moment diagrams. Show all work. Label completely. (b.) Determine the maximum value of the transverse shear force (in magnitude) and where it occurs. 'Box' answers. (c.) Determine the maximum values of the bending moment (both positive and negative) and where each occurs. 'Box' answers. Part...
Q4. (20 pts) A kN/m BEN. X mm The beam has the cross-sectional area and loaded as shown. Draw the bending and shear force diagrams. Find the maximum bending stress in the beam. التسعي HO Z mm Y mm 3 m Z mm A=40 X=75 B=25 Y=125 Z=10
PLEASE PRINT
Question Four The beam has a cross section shown below and is subjected to a 1 kN load as shown. The beam AB has a length of 3 m. a) Draw the shear force and bending moment diagrams. b) Determine the maximum bending stress. c) Where is the location of the maximum stress in b) above? 30 mm 30 mm 30 mm 50 mm t 40 mm 50 m 40mm
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