solve all parts. show all steps/solutions. show equations for shear and moment diagramsshow full solution and fbds (30 Points) The 40 lb crate shown in the following figure is being hoisted up with a constant acceleration of 6 ft/s².The cantilevered beam "AB" has a uniform cross section and weighs 300 lb. Answer questions a, b, and c based onthis information.AZa.) Draw a free body diagram of the beam "AB" showing the reaction force(s) and moment(s)/torque(s)acting on the beam at point "A" as well as the "cable force(s)" acting on the beam at point "B" (Don'tforget to include the "weight"of the beam).b.) Draw the "Shear Force Diagram" and "Bending Moment Diagram" for the beam "AB".c.) Complete the "loading diagram" shown below by determining the "force(s)" and "moment(s)/torque(s)"acting on the cut section through point "C". Show these force(s)/moment(s)/torque(s) on the "loadingdiagram" given below.d.)Determine the "normal stress" and "shear stress" components at point "C" (i.e. find "oc" and "Tc") andshow them on a differential volume element located at this point. Be sure to include a coordinate axisreference system to correctly identify the orientation of the element.2 ft8 ftBat bruorg od bay16 ft/s²XH8 inAZ10 in*1

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this information. Z Ibeam "AB" has a uniform cross section and weighs 300 lb. Answer questions a, b, and c based on a.) Draw a free body diagram of the beam "AB" showing the reaction force(s) and moment(s)/torque(s) acting on the beam at point "A" as well as the "cable force(s)" acting on the beam at point "B" (Don't forget to include the "weight"of the beam). A b.) Draw the "Shear Force Diagram" and "Bending Moment Diagram" for the beam "AB". c.) Complete the "loading diagram" shown below by determining the "force(s)" and "moment(s)/torque(s)" acting on the cut section through point "C". Show these force(s)/moment(s)/torque(s) on the "loading diagram" given below. d.) Determine the "normal stress" and "shear stress" components at point "C" (i.e. find "o" and "Tc") and show them on a differential volume element located at this point. Be sure to include a coordinate axis reference system to correctly identify the orientation of the element. 2 ft с 8 ft B y 16 ft/s² X C 8 in AZ 10 in

this information. Z Ibeam "AB" has a uniform cross section and weighs 300 lb. Answer questions a, b, and c based on a.) Draw a free body diagram of the beam "AB" showing the reaction force(s) and moment(s)/torque(s) acting on the beam at point "A" as well as the "cable force(s)" acting on the beam at point "B" (Don't forget to include the "weight"of the beam). A b.) Draw the "Shear Force Diagram" and "Bending Moment Diagram" for the beam "AB". c.) Complete the "loading diagram" shown below by determining the "force(s)" and "moment(s)/torque(s)" acting on the cut section through point "C". Show these force(s)/moment(s)/torque(s) on the "loading diagram" given below. d.) Determine the "normal stress" and "shear stress" components at point "C" (i.e. find "o" and "Tc") and show them on a differential volume element located at this point. Be sure to include a coordinate axis reference system to correctly identify the orientation of the element. 2 ft с 8 ft B y 16 ft/s² X C 8 in AZ 10 in

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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Concept explainers

Bending Moment

In general, we can define the bending moment as the reaction induced when a certain amount of load or force is applied to an element which makes it bend.

Question

solve all parts. show all steps/solutions. show equations for shear and moment diagrams

show full solution and fbds

(30 Points) The 40 lb crate shown in the following figure is being hoisted up with a constant acceleration of 6 ft/s².
The cantilevered beam "AB" has a uniform cross section and weighs 300 lb. Answer questions a, b, and c based on
this information.
A
Z
a.) Draw a free body diagram of the beam "AB" showing the reaction force(s) and moment(s)/torque(s)
acting on the beam at point "A" as well as the "cable force(s)" acting on the beam at point "B" (Don't
forget to include the "weight"of the beam).
b.) Draw the "Shear Force Diagram" and "Bending Moment Diagram" for the beam "AB".
c.) Complete the "loading diagram" shown below by determining the "force(s)" and "moment(s)/torque(s)"
acting on the cut section through point "C". Show these force(s)/moment(s)/torque(s) on the "loading
diagram" given below.
d.)
Determine the "normal stress" and "shear stress" components at point "C" (i.e. find "oc" and "Tc") and
show them on a differential volume element located at this point. Be sure to include a coordinate axis
reference system to correctly identify the orientation of the element.
2 ft
8 ft
B
at bruorg od ba
y
16 ft/s²
X
H
8 in
AZ
10 in
*1

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Step 2: Calculation of tension in cable and reaction force at point A

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Step 3: Calculation of shear force and moment diagram of AB

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