Homework Answers
I assumed you asked to write a MATLAB programme. So here is the matlab programme for the given question
%==================Here is the matlab code==================
clear all
close all
clc
P=3e3; %in N
E=7e10; % in N/m^2
h=100e-3; % in m
b=5e-3; % in m
t=8e-3; % in m
L=2; %in m
x=0:0.1:L;
for i=1:length(x)
l=x(i);
% calculating the I(x) using the subroutine
Ix=MI(h,b,t,l,L);
% calculating the deflection
vx=(P*x.^2.*(3*L-x))/(E*Ix);
end
% plotting the deflection
plot(x,vx)
xlabel('length in m')
ylabel('deflection in m')
%=============== a subroutine to calculate the moment of inertia==================
function Ix=MI(h,b,t,l,L)
if (l>=0&&l<L/2)
w=150e-3;
else
w=90e-3;
end
Ix=(w*h^3-(h-2*t)^3*(w-b))/12;
end
%===============End of the matlab code=============================
Add Answer to:
EMT 101- Engineering Programming Homework 3 Deflection of an I-Beam(100 %) You are to develop a program that calculates and plots the vertical deflection of a beam subjected to a force acting on it...
4. (25 pt.) The beam subjected to a uniform distributed load as shown in Figure 4(a)...
4. (25 pt.) The beam subjected to a uniform distributed load as shown in Figure 4(a) has a triangular cross-section as shown in Figure 4(b). 1) (6 pt.) Determine mathematical descriptions of the shear force function V(x) and the moment function M(x). 2) (6 pt.) Draw the shear and moment diagrams for the beam. 3) (5 pt.) What is the maximum internal moment Mmar in the beam? Where on the beam does it occur? 4) (8 pt.) Determine the absolute...
Using equation 3 please find the deflection value with the variables given. Be careful with units...
Using equation 3 please find the deflection value with the
variables given. Be careful with units please.
P= 10.07 Newtons
L= 953.35 mm
x= 868.363 mm
E= 72.4 GPa
Iy= 5926.62 mm^4
The maximum deflection, WMAX of the cantilever beam occurs at the free end. The magnitude of the deflection may be derived by solving the differential equation: d'w M,(x) P (L-x) eq. 1 dr EI EI where E and Iy are the modulus of elasticity and moment of inertia...
I need help with this problem. A cantilever beam is subjected to a linearly distributed load,...
I need help with this problem.
A cantilever beam is subjected to a linearly distributed load, with W, = 10 kN/m and to an inclined point load F equal to 20 kN, as shown in the figure. The length of the beam is L=10 m. Make a cut at distance x from the free end of the cantilever, as shown in the figure, and use the method of sections to derive expressions for the internal resultant loadings at the cross-section...
Question 3: A steel (E 30x106 psi and v 0.3) cantilever l-beam is subjected to a...
Question 3: A steel (E 30x106 psi and v 0.3) cantilever l-beam is subjected to a distributed load and a concentrated load. The I section is 4-inch-wide and 5-inch-tall, and the flange and web plates are all 0.5-inch-thick, as marked in the figure. a) Draw the moment diagram as a function of x and clearly label the moment values at 1, 2, and 4 ft. (10) b) Find the maximum tensile (normal) stress in the entire beam. (5) c) Find...
A steel I-section beam, simply supported at its two ends, is subjected to a uniformly distributed...
A steel I-section beam, simply supported at its two ends, is
subjected to a uniformly distributed load q (vertically downward)
over its central segment having a length of 2 m as shown in the
figure. It also shows the type of restraints (F/P/L) against
lateral torsional buckling of the beam at its four sections. The
section at the left end of the beam has only the lateral rotational
restraint. The load is causing bending of the beam about x-x (major...
Review An engineered wood beam (Figure 1) will replace a portion of a structural wall as...
Review An engineered wood beam (Figure 1) will replace a portion of a structural wall as part of a house renovation. The beam can be modeled as a simply supported beam with a span L = 18 ft and an uniform distributed load w = 810 lb/ft . The beam is to be constructed as an I-beam with nails securing the flanges to the web. The flanges are 6 in wide and 1 in thick. The web has depth 18...
A steel channel section of length I has a built-in support at its lower end, and...
A steel channel section of length I has a built-in support at its lower end, and the upper end of the section has a rigid plate welded onto it, as illustrated in the figure below. The steel has a modulus of elasticity of E 200 GPa and a yield strength = 300 MPa. The section has a cross sectional area .d-1070 mm2 and second moments of area about its principal centroid axes of 1.-3.97 x 106mm4 and ly 0.658 ×...
Learning Goal: To calculate the shear stress at the web/flange joint in a beam and use...
Learning Goal: To calculate the shear stress at the web/flange joint in a beam and use that stress to calculate the required nail spacing to make a built- up beam. A built up beam can be constructed by fastening flat plates together. When an l-beam is subjected to a shear load, internal shear stress is developed at every cross section, with longitudinal shear stress balancing transverse shear stress. If the beam is built up using plates, the fasteners used must...
For the beam shown, assume that ET-130 ,000 kip-ft2, P = 80 kips, and w = 4.5 kips/ft. Use discontinuity functions to determine (a) the reactions at A, C, and D (b) the beam deflection at B Assume LA...
For the beam shown, assume that ET-130 ,000 kip-ft2, P = 80 kips, and w = 4.5 kips/ft. Use discontinuity functions to determine (a) the reactions at A, C, and D (b) the beam deflection at B Assume LAB = LBC = 9.0 ft, LCD = 18.0 ft. AB CD Sum the forces in the y direction to find an expression that includes the reaction forces Ay, Cy, and Dy acting on the beam. Positive values for the reactions are...
please solve completely and correctly, I will give thumbs up! Force Method. The reinforced concrete beam as sh...
please solve completely and correctly, I will give thumbs
up!
Force Method. The reinforced concrete beam as shown in “Figure 1" has a constant cross sectional dimension of 10" x 12" (b x h). The unit weight of the concrete is 150 lb/ft3. The 28-day concrete compressive strength of the beam is = 4000 psi. Use the classical force method to analyze the indeterminate beam under the applied dead load only. Assume the following values of span length: L1 =...
4. (25 pt.) The beam subjected to a uniform distributed load as shown in Figure 4(a) has a triangular cross-section as shown in Figure 4(b). 1) (6 pt.) Determine mathematical descriptions of the shear force function V(x) and the moment function M(x). 2) (6 pt.) Draw the shear and moment diagrams for the beam. 3) (5 pt.) What is the maximum internal moment Mmar in the beam? Where on the beam does it occur? 4) (8 pt.) Determine the absolute...
Using equation 3 please find the deflection value with the
variables given. Be careful with units please.
P= 10.07 Newtons
L= 953.35 mm
x= 868.363 mm
E= 72.4 GPa
Iy= 5926.62 mm^4
The maximum deflection, WMAX of the cantilever beam occurs at the free end. The magnitude of the deflection may be derived by solving the differential equation: d'w M,(x) P (L-x) eq. 1 dr EI EI where E and Iy are the modulus of elasticity and moment of inertia...
I need help with this problem.
A cantilever beam is subjected to a linearly distributed load, with W, = 10 kN/m and to an inclined point load F equal to 20 kN, as shown in the figure. The length of the beam is L=10 m. Make a cut at distance x from the free end of the cantilever, as shown in the figure, and use the method of sections to derive expressions for the internal resultant loadings at the cross-section...
Question 3: A steel (E 30x106 psi and v 0.3) cantilever l-beam is subjected to a distributed load and a concentrated load. The I section is 4-inch-wide and 5-inch-tall, and the flange and web plates are all 0.5-inch-thick, as marked in the figure. a) Draw the moment diagram as a function of x and clearly label the moment values at 1, 2, and 4 ft. (10) b) Find the maximum tensile (normal) stress in the entire beam. (5) c) Find...
A steel I-section beam, simply supported at its two ends, is
subjected to a uniformly distributed load q (vertically downward)
over its central segment having a length of 2 m as shown in the
figure. It also shows the type of restraints (F/P/L) against
lateral torsional buckling of the beam at its four sections. The
section at the left end of the beam has only the lateral rotational
restraint. The load is causing bending of the beam about x-x (major...
Review An engineered wood beam (Figure 1) will replace a portion of a structural wall as part of a house renovation. The beam can be modeled as a simply supported beam with a span L = 18 ft and an uniform distributed load w = 810 lb/ft . The beam is to be constructed as an I-beam with nails securing the flanges to the web. The flanges are 6 in wide and 1 in thick. The web has depth 18...
A steel channel section of length I has a built-in support at its lower end, and the upper end of the section has a rigid plate welded onto it, as illustrated in the figure below. The steel has a modulus of elasticity of E 200 GPa and a yield strength = 300 MPa. The section has a cross sectional area .d-1070 mm2 and second moments of area about its principal centroid axes of 1.-3.97 x 106mm4 and ly 0.658 ×...
Learning Goal: To calculate the shear stress at the web/flange joint in a beam and use that stress to calculate the required nail spacing to make a built- up beam. A built up beam can be constructed by fastening flat plates together. When an l-beam is subjected to a shear load, internal shear stress is developed at every cross section, with longitudinal shear stress balancing transverse shear stress. If the beam is built up using plates, the fasteners used must...
For the beam shown, assume that ET-130 ,000 kip-ft2, P = 80 kips, and w = 4.5 kips/ft. Use discontinuity functions to determine (a) the reactions at A, C, and D (b) the beam deflection at B Assume LAB = LBC = 9.0 ft, LCD = 18.0 ft. AB CD Sum the forces in the y direction to find an expression that includes the reaction forces Ay, Cy, and Dy acting on the beam. Positive values for the reactions are...
please solve completely and correctly, I will give thumbs
up!
Force Method. The reinforced concrete beam as shown in “Figure 1" has a constant cross sectional dimension of 10" x 12" (b x h). The unit weight of the concrete is 150 lb/ft3. The 28-day concrete compressive strength of the beam is = 4000 psi. Use the classical force method to analyze the indeterminate beam under the applied dead load only. Assume the following values of span length: L1 =...
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