Calculate the deflection curve v(x) for Problem below please it should be explained clearly 1. Consider the following composite LEHI structure under axial tension. Write an equation that describesthe total new length of the structure as a function of the given variables.Ae, EaA,,E,L/3/32. From the following uniaxial data, calculate the Young's modulus and estimate the yield stress (stress

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Answered: 1. Consider the following composite…

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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ONLY SOLVE PART B Find the deflection y(x) differential equations where: a)The beam is embedded at x = L and a free end at x = 0. The applied load is w = w0*(1+Sin(πx/L)), wo is the maximum intensity of the load. B)Repeat part (a) for both embedded ends boundary conditions.
A cantilever beam has a length L =12 ft and a rectangular cross section (b= 16 in., h=24 in.), A linearly varying distributed load with peak intensity qoacts on the beam, (a) Find peak intensity q,if the deflection at joint Bis known to be 0.18 in. Assume that modulus E= 30,000 ksi. (b) Find the location and magnitude of the maximum rotation of the beam. TITT В h PROBLEM 9.3-15
A steel beam is simply supported at both ends and laterally loaded to bend it plastically, as shown in Figure Q3a(i). The cross section is hollow, and the beam dimensions are illustrated in Figure Qa (ii). Find the value of load P, Shape Factor, and Length of Plastic Lp when the critical section is in fully plastic condition if the steel acts elastic-perfectly plastic with a Yield Stress of 200 MPa.
A simply supported beam of span 3m is subjected to uniformly distributed load of 15 kN/m asshown in figure 2. Determine the equation of both slope and deflection by using double integrationmethod. Calculate the slope at support B and deflection at 1 m from left support. El is constant.
h F The beam of length 5.9 (m) and cross section base 0.10 (m) and height 0.16 (m) shown is made of plain steel with a modulus of elasticity of 200 (Gpa) and an ultimate strength of 400 (Mpa). The load is 250 (N) and the point q is 4.0 (m) from the wall in the x direction. What is the magnitude of vertical deflection of the beam at point q in units of meters?
and y vs. y (phase plot) 4. Consider the deflection v of the beam to the right. The beam is supported at each end and sags due to its own weight (a distributed load q = 50 kN/m). The equation describing the deflection is d'u qx (x- L) dx 2EI where L=5.0 m, I = 0.0052 m* and E = 1.0x1010 Pa. Use the method of your choosing (shooting or finite differences) to solve for: 1) the slope at each end of the beam; 2) the maximum deflection; and 3) the location of maximum deflection.
Pin-joint construction supports point loads as shown below: P Al ΕΙ C B 2/3 L 1/3 L a) Find the equation for the deflection of the bar at point B! b) Determine the equation for the moment that occurs at point A!
I need the answer as soon as possible
Use virtual unit load method
L=2
i need the answer quickly
I need correct answer

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1. Consider the following composite LEHI structure under axial tension. Write an equation that describes the total new length of the structure as a function of the given variables.