need help on this A wooden beam is loaded by a distributed load w = 5 N/mm as shown in FigureQ4(a). The cross-section of the beam is shown in Figure Q4(b). Assume that LAB =1700 mm, LBC = 3300 mm, W=180 mm, Bo = 20 mm, and H = 210 mm, ho=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 a10% 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)holBoHAアアBケLABLBCCross-sectionWFigure Q4: (a) A wooden beam is loaded by a distributed load, (b) cross-section ofthe beam. f) Determine the maximum bending stress and shear stress that occurs in thebeam.Maximum bending stressMPaMaximum shear stressMPaBending stress equationWrite down equation to calculate the maximum bending stress:Definition of variables: maximum moment is Mm, 2nd moment of area Io,maxium distance from the netural plane y.Shear stress equationWrite down the shear stress equation:The definition of the variables are: Shear force V, 1st moment of Area Q,2nd moment of area Io, width of cross-section feature t.

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Answered: A wooden beam is loaded by a…

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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4. This figure shows a cantilever beam that is subject to a point load and a moment. What is the vertical displacement at the tip of the beam? Assume E = 200 GPa and / = 1560 X 10° mm%. A. 58.7 mm B. 68.9 mm C. 89.0 mm D. 100 mm
A wooden beam is loaded by a distributed load ww = 6 N/mm as shown in Figure Q4(a). The cross-section of the beam is shown in Figure Q4(b). Assume that LAB = 3000 mm, LBC = 2000 mm, W=190 mm, B0 = 10 mm, and H = 220 mm, h0=40 mm. Units: use N, mm, MPa as consistent units for all calculations. Decimal points: any decimal points are fine a)Determine the 2nd moment of area of this cross-section in Figure Q4(b)? b)Calculate support reactions in A and C, remember the sign of the force. Reaction force at point A: x-direction: XA= y-direction: YA= Reaction force at point C: x-direction: XC= y-direction: YC= c)Calculate the equations of shear force V(x) and bending moment M(x). Type the mathematical expressions or constants. Section AB: Section BC:
The cylindrical tank weights 500 lb. Determine (a) FH, (b) FV, (c) FR and (d) ϴx. Use 2 decimal places in every solved value.
A wooden beam is loaded by a distributed load w = 6 N/mm as shown in Figure Q4(a). The cross-section of the beam is shown in Figure Q4(b). Assume that LAB = 1900 mm, LBC = 3100 mm, W=200 mm, B0 = 30 mm, and H = 200 mm, h0=20 mm. Units: use N, mm, MPa as consistent units for all calculations.
For the beam and loading shown in Figure below, determine the beam deflection at point H. Assume that EI = 8 × 104 kN·m2 is constant. Express your answer in mm and use three decimal places. Indicate the negative sign in your final answer if the deflection is downward.
Problem 1 only, read and see the figure, solve carefully, include the units in every step and draw the diagram. Thanks!
the relation between the spring force (f) and its deflection(x) is given in the table. using the engineering paper below, plot the force against the deflection. determine the spring constant(k), using the equation f=kx deflection (x) 0,5,10,15,20 spring force f(N) 0,10,20,30,40
A cantilever beam carries a varying load as shown in the figure. If E = 200,000 Mpa and I=120×10^6 mm^4 Determine the following. Use Double Integration Method 1. Slope at free end 2. Deflection at 4m from the support
Answers are a) (25/64) mr22 b) (25/32) mr22 Please show solution that involves mass moment of inertia and NOT area moment of inertia.
In the figure below, the weight of the block is 300 kg and the angle of internal friction is 24.2 degrees. a. If h = 50 cm and P = 50 kg. does the block move? b. If h = 50 cm, what is the smallest P to start motion?
In the figure below, the weight of the block is 300 kg and the angle of internal friction is 24.2 degrees.a. If h = 50 cm and P = 50 kg. does the block move?b. If h = 50 cm, what is the smallest P to start motion?
Please refer to the figure below. Determine R in N at point C.

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