For the figure shown below (not to scale)... (a) Write equations for the internal forces at J (axial (F), shear (V), and bending (M)) in terms of only P and a. (b) Graph your equations as functions of P, using a = 45°, from 0 < P < 1000 N. Use your graph to answer the following conceptual questions: 1. Which quantity (F, V, or M) is most affected by changes in P? 2. Based on your diagrams and graphical results, for positive values of P... I. Is point J under tension or compression? II. If the structure fails (snaps) at a point just to the right of J, which direction does your diagram indicate point J will travel (up or down)? III. Which direction do your results indicate member BC will tend to bend, concave up or down? 3. For different values of a, what will happen to these lines? Choose all that apply: a. They will shift up/down b. They will shift left/right c. They will rotate (change slope) d. Nothing (c) Graph your equations as functions of a, using P = 100 N, from 0 < a < 2π. Use your graph to identify what value of a between 0 and 2π (non-inclusive) will produce... 1. Zero axial stress 2. Zero shear stress 3. Zero bending stress

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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For the figure shown below (not to scale)...
(a) Write equations for the internal forces at J (axial (F), shear (V), and bending (M)) in
terms of only P and a.
(b) Graph your equations as functions of P, using a =45°, from 0 <P < 1000 N. Use your
graph to answer the following conceptual questions:
1. Which quantity (F, V, or M) is most affected by changes in P?
2.
Based on your diagrams and graphical results, for positive values of P...
I.
Is point J under tension or compression?
II.
If the structure fails (snaps) at a point just to the right of J, which direction
does your diagram indicate point J will travel (up or down)?
III.
Which direction do your results indicate member BC will tend to bend,
concave up or down?
3. For different values of a, what will happen to these lines? Choose all that apply:
a. They will shift up/down
b. They will shift left/right
c. They will rotate (change slope)
d. Nothing
(c) Graph your equations as functions of a, using P = 100 N, from 0 < a < 2π. Use your
graph to identify what value of a between 0 and 2π (non-inclusive) will produce...
1. Zero axial stress
2. Zero shear stress
3. Zero bending stress
P
B
A
75 mm
J
-350 mm-
-400 mm-
C
D
150 mm
100 mm
Transcribed Image Text:For the figure shown below (not to scale)... (a) Write equations for the internal forces at J (axial (F), shear (V), and bending (M)) in terms of only P and a. (b) Graph your equations as functions of P, using a =45°, from 0 <P < 1000 N. Use your graph to answer the following conceptual questions: 1. Which quantity (F, V, or M) is most affected by changes in P? 2. Based on your diagrams and graphical results, for positive values of P... I. Is point J under tension or compression? II. If the structure fails (snaps) at a point just to the right of J, which direction does your diagram indicate point J will travel (up or down)? III. Which direction do your results indicate member BC will tend to bend, concave up or down? 3. For different values of a, what will happen to these lines? Choose all that apply: a. They will shift up/down b. They will shift left/right c. They will rotate (change slope) d. Nothing (c) Graph your equations as functions of a, using P = 100 N, from 0 < a < 2π. Use your graph to identify what value of a between 0 and 2π (non-inclusive) will produce... 1. Zero axial stress 2. Zero shear stress 3. Zero bending stress P B A 75 mm J -350 mm- -400 mm- C D 150 mm 100 mm
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