The simple beam AB supports two connected wheel loads Pand 2P that are a distance d apart (see figure). The wheels may be placed at any distance z from the left-hand support of the beam. (Assume P = 8 kN, d = 2.6 m, and L = 22 m.) 2P A (a) Determine the distance z that will produce the maximum shear force in the beam. Round to two decimal places. m (b) Determine the maximum shear force Vmax - Round to two decimal places. kN (C) Determine the distance z that will produce the maximum bending moment in the beam, and also draw the corresponding bending-moment diagram. Round to two decimal places. m (d) Draw the corresponding bending-moment diagram. Maax =121.80 M (kN m) A. 8.83 m 60 m 10.57 m Млах 3109.62 M (kN m) В.

Structural Analysis
6th Edition
ISBN:9781337630931
Author:KASSIMALI, Aslam.
Publisher:KASSIMALI, Aslam.
Chapter2: Loads On Structures
Section: Chapter Questions
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Mmax =146.17
M
(kN ·m)
C.
8.83 m
2.60 m
10.57 m
Mmax =146.17
M
(kN m)
D.
8.83 m
2.60 m
10.57 m
Choose the correct answer.
-Select-
Transcribed Image Text:Mmax =146.17 M (kN ·m) C. 8.83 m 2.60 m 10.57 m Mmax =146.17 M (kN m) D. 8.83 m 2.60 m 10.57 m Choose the correct answer. -Select-
The simple beam AB supports two connected wheel loads Pand 2P that are a distance d apart (see
figure). The wheels may be placed at any distance z from the left-hand support of the beam. (Assume
P = 8 kN, d = 2.6 m, and L = 22 m.)
2P
A
(a) Determine the distance z that will produce the maximum shear force in the beam. Round to two decimal
places.
m
(b) Determine the maximum shear force Vmax - Round to two decimal places.
kN
(C) Determine the distance z that will produce the maximum bending moment in the beam, and also draw
the corresponding bending-moment diagram. Round to two decimal places.
m
(d) Draw the corresponding bending-moment diagram.
Maax =121.80
M
(kN m)
A.
8.83 m
60 m
10.57 m
Млах 3109.62
M
(kN m)
В.
11.43 m
2.60 m
8.83 m
Transcribed Image Text:The simple beam AB supports two connected wheel loads Pand 2P that are a distance d apart (see figure). The wheels may be placed at any distance z from the left-hand support of the beam. (Assume P = 8 kN, d = 2.6 m, and L = 22 m.) 2P A (a) Determine the distance z that will produce the maximum shear force in the beam. Round to two decimal places. m (b) Determine the maximum shear force Vmax - Round to two decimal places. kN (C) Determine the distance z that will produce the maximum bending moment in the beam, and also draw the corresponding bending-moment diagram. Round to two decimal places. m (d) Draw the corresponding bending-moment diagram. Maax =121.80 M (kN m) A. 8.83 m 60 m 10.57 m Млах 3109.62 M (kN m) В. 11.43 m 2.60 m 8.83 m
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