) Calculate the equations of shear force V(2) and bending moment M(z). Type the mathematical expressions or constants. Section AB: Shear force equation V(z) = N Bending moment equation M(x) = _ N'mm Section BC: Shear force equation V(2) = N Bending moment equation M(z) =: N*mm A wooden beam is loaded by a distributed load =5 N/mm as shown in Figure Q4(a). The cross-section of the beam is shown in Figure Q4(b). Assume that LAB=1700 mm, Lục = 3300 mm, W=180 mm, By = 20 mm, and H = 210 mm, ha-20 mm. Units: use N, mm, MPa as consistent units for all calculations. Decimal points: any decimal points are fine and all the numerical questions have a 10% error tolerance. Steps: Fill the gaps in the "steps" to get some marks from the working out process. Adaptive marking is still used. (a) (b) hoi Bo Lan Cross-section Figure Q4: (a) A wooden beam is loaded by a distributed load, (b) cross-section of the beam. b) Calculate support reactions in A and C, remember the sign of the force. Reaction force at point A: x direction: X4= N, y-direction: Y= Reaction force at point C: xdirection: Xe N, y direction: Ye
) Calculate the equations of shear force V(2) and bending moment M(z). Type the mathematical expressions or constants. Section AB: Shear force equation V(z) = N Bending moment equation M(x) = _ N'mm Section BC: Shear force equation V(2) = N Bending moment equation M(z) =: N*mm A wooden beam is loaded by a distributed load =5 N/mm as shown in Figure Q4(a). The cross-section of the beam is shown in Figure Q4(b). Assume that LAB=1700 mm, Lục = 3300 mm, W=180 mm, By = 20 mm, and H = 210 mm, ha-20 mm. Units: use N, mm, MPa as consistent units for all calculations. Decimal points: any decimal points are fine and all the numerical questions have a 10% error tolerance. Steps: Fill the gaps in the "steps" to get some marks from the working out process. Adaptive marking is still used. (a) (b) hoi Bo Lan Cross-section Figure Q4: (a) A wooden beam is loaded by a distributed load, (b) cross-section of the beam. b) Calculate support reactions in A and C, remember the sign of the force. Reaction force at point A: x direction: X4= N, y-direction: Y= Reaction force at point C: xdirection: Xe N, y direction: Ye
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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Transcribed Image Text:) Calculate the equations of shear force V(2) and bending moment M(z). Type
the mathematical expressions or constants.
Section AB:
Shear force equation V(z) =
N
Bending moment equation M(x) = _
N'mm
Section BC:
Shear force equation V(2) =
N
Bending moment equation M(z) =:
N*mm

Transcribed Image Text:A wooden beam is loaded by a distributed load =5 N/mm as shown in Figure Q4(a).
The cross-section of the beam is shown in Figure Q4(b). Assume that LAB=1700 mm,
Lục = 3300 mm, W=180 mm, By = 20 mm, and H = 210 mm, ha-20 mm.
Units: use N, mm, MPa as consistent units for all calculations.
Decimal points: any decimal points are fine and all the numerical questions have a 10%
error tolerance.
Steps: Fill the gaps in the "steps" to get some marks from the working out process.
Adaptive marking is still used.
(a)
(b)
hoi
Bo
Lan
Cross-section
Figure Q4: (a) A wooden beam is loaded by a distributed load, (b) cross-section of the
beam.
b) Calculate support reactions in A and C, remember the sign of the force.
Reaction force at point A:
x direction: X4=
N, y-direction: Y=
Reaction force at point C:
xdirection: Xe
N, y direction: Ye
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