Use the principle of virtual work to determine the vertical deflection and rotation at tip (Point B) of the cantilever shown below.(L=6847 mm, q=5331 N/mm, M = 1408549 N.mm, and El = 8.6 x 1014 N. mm²)9YMAΕΙBL Step-3The vertical deflection at Point B can be calculated as(The following choices are provided in units of mm and rounded to three decimal places; the downward deflection is negative and upward deflection is positive.)

Let me know if you need any further clarification!

Answered: Use the principle of virtual work to…

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

See similar textbooks

Similar questions

Q3a For the beam l-section below, calculate the second moment of area about its centroidal x-axis (Ixxcentroid). Give your answer in m4 to 2 significant figures (not mm“). 120 mm 75 mm 425 mm 50 mm- y 150 mm 400 mm
For the beam shown, use only singularity functions. V₁ = 45 lbf/in and V/₂ = 5 in. NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. 0 1400 lbf Hinge JA B₁ C R₂ R₁ 4 in 4 in 2 in V1 V2 D R₂ + What is the value of the peak moment between points Cand D? The peak moment between points C and Dis Ibf.in.
MA MB= Mc= MD= Required information For the beam shown, find the reactions at the supports and plot the shear-force and bending-moment diagrams. V=50 lbf/in and V2 = 7 in. NOTE: This is a multi-part question. Once an answer is submitted, you will be unable to return to this part. Hinge = 1400 lbf/ A BI AC R₂ R₁ 4 in 4 in 2 in V1 Determine the values of the moments at points A, B, C, and D. lbf.in lbf.in lbf.in Ibf.in V2 D R₂
S = 70
For the composite beam section in Figure Q6a, calculate the second moment of areaabout its centroidal x-x axis (Ixx centroid), where b1 = 125.50 mm, b2 = 25.75 mm,b3 = 36.35 mm, d1 = 78.00 mm and d2 = 24.00 mm Give your answer to 2 decimalplaces.
The prismatic beam with the asymmetric section shown below is subjected to a linearlyvarying transverse load pz = po [1 - (x/L)], which passes through its shear center. The wallthickness t is assumed to be small in comparison to the other dimensions. i) Find the centroid of this cross-section.ii) Find the principal axes y’ and z’ of the cross-section.iii) Calculate (in terms of given loads and geometric dimensions) the shear flow due to bending at sectionx = 0 and plot the results.iv) Find the maximum shear stress tauxs and maximum normal stress tauxx in the beam. Please show all work!!
The prismatic beam with the asymmetric section shown below is subjected to a linearlyvarying transverse load pz = po [1 - (x/L)], which passes through its shear center. The wallthickness t is assumed to be small in comparison to the other dimensions. a) Find the centroid of this cross-section.b) Find the principal axes y’ and z’ of the cross-section.c) Calculate (in terms of given loads and geometric dimensions) the shear flow due to bending at sectionx = 0 and plot the results.d) Find the maximum shear stress tauxs and maximum normal stress tauxx in the beam. Please show all work!! for a,b, and c please!! Answer the questions please.
The prismatic beam with the asymmetric section shown below is subjected to a linearlyvarying transverse load pz = po [1 - (x/L)], which passes through its shear center. The wallthickness t is assumed to be small in comparison to the other dimensions. a) Find the centroid of this cross-section.b) Find the principal axes y’ and z’ of the cross-section.Please show all work for both parts and give me actual answers instead of suggestions of what to do next please!
3 For the beam shown, find the reactions at the supports and plot the shear-force and bending-moment diagrams. V = 9 kN, V2 = 9 kN, V3 = 200 mm, and V4 = 1100 mm. ATAT-V3 Provide values at all key points shown in the given shear-force and bending-moment diagrams. X (mm) B A = B = C = D = E= F= P = Q = E * KN * KN * KN × KN KN x KN ✩ kN.mm *kN.mm D 0.00 Reaction force R₁ (left) = In the shear-force and bending-moment diagrams given, +V 0.00 X (mm) 6.3 kN and reaction force R2 (right) = P 11.7 kN. Q 0.00
For the composite beam section in Figure Q6a, calculate the second moment of area about its centroidal x-x axis (Ixx centroid), where b₁ = 125.50 mm, b₂ = 25.75 mm, b3 = 36.35 mm, d₁ = 78.00 mm and d₂ = 24.00 mm Give your answer to 2 decimal places. b2 y dz b1 b3 Figure Q6a d1 X
3. Determine the displacement and slope (i.e. 0) at the load point for the stepped beam shown in the following figure. Also determine the reaction forces and moments. Each element has E = 200 GPa. The area moment of inertia are given as I₁ = 1.25 × 105 mm4, and 2 = 4 x 104 mm. Clearly show the elemental stiffness matrices (k) for each element, assembly of k matrices to get global stiffness matrix (K) and application of boundary conditions. Then solve the reduced K matrix to get displacements and reactions 3000 N 150 mm 75 mm 125 mm
A uniform beam is fixed at end x=0 and simply supported at x = L. Find the shape of the center line of the beam, given the weight per unit Length is w. a. b. C. e. O y(x) = d. y(x) = a y(x) = y(x) = y(x) = W 24 El -[x4 - 4Lx³ +6L²x²] =[x4-2Lx³ + L²x²] -[x4-2Lx³ + L³x] -[2x4-5Lx³+3L²x²] [2x4-3L³x³ +3L²x²] W 24 El W 24 El W 24 El - W 24 EI

SEE MORE QUESTIONS

Recommended textbooks for you

Elements Of Electromagnetics

Mechanical Engineering

ISBN:

9780190698614

Author:

Sadiku, Matthew N. O.

Publisher:

Oxford University Press

Mechanics of Materials (10th Edition)

Mechanical Engineering

ISBN:

9780134319650

Author:

Russell C. Hibbeler

Publisher:

PEARSON

Thermodynamics: An Engineering Approach

Mechanical Engineering

ISBN:

9781259822674

Author:

Yunus A. Cengel Dr., Michael A. Boles

Publisher:

McGraw-Hill Education

Elements Of Electromagnetics

Mechanical Engineering

ISBN:

9780190698614

Author:

Sadiku, Matthew N. O.

Publisher:

Oxford University Press

Mechanics of Materials (10th Edition)

Mechanical Engineering

ISBN:

9780134319650

Author:

Russell C. Hibbeler

Publisher:

PEARSON

Thermodynamics: An Engineering Approach

Mechanical Engineering

ISBN:

9781259822674

Author:

Yunus A. Cengel Dr., Michael A. Boles

Publisher:

McGraw-Hill Education

Control Systems Engineering

Mechanical Engineering

ISBN:

9781118170519

Author:

Norman S. Nise

Publisher:

WILEY

Mechanics of Materials (MindTap Course List)

Mechanical Engineering

ISBN:

9781337093347

Author:

Barry J. Goodno, James M. Gere

Publisher:

Cengage Learning

Engineering Mechanics: Statics

Mechanical Engineering

ISBN:

9781118807330

Author:

James L. Meriam, L. G. Kraige, J. N. Bolton

Publisher:

WILEY

SEE MORE TEXTBOOKS