B15m 1.5m P=0.8 kN T-12 kN 2 m Determine the x-, y-, and z- components of T. Determine the angles which the line of action of T forms with the positive x, y-, and z-axes. Calculate the projection of P onto a line between A and F and determine the angle between P and AF. Determine the vector expression for the moment of P about point E.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
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400 lb
F1 = 400 j
F2 = -600 k
F3 = 500 sin 45 i -500 cos 45 k
3
r2=?
600 lb
r3=?
45
M- rįxF,, M,- r2× F, , M,= r3x F,
M-M, + M, + M,
500 lb
Q2: *
B 15
1.5 m
P= 0.8 kN
T-1.2 kN
3m
2 m
Determine the x-, y-, and z- components of T.
Determine the angles which the line of action of T forms with the positive x-, y-, and z-axes.
- Calculate the projection of P onto a line between A and Fand determine the angle between P and AF.
Determine the vector expression for the moment of P about point E.
1 Add file
Transcribed Image Text:400 lb F1 = 400 j F2 = -600 k F3 = 500 sin 45 i -500 cos 45 k 3 r2=? 600 lb r3=? 45 M- rįxF,, M,- r2× F, , M,= r3x F, M-M, + M, + M, 500 lb Q2: * B 15 1.5 m P= 0.8 kN T-1.2 kN 3m 2 m Determine the x-, y-, and z- components of T. Determine the angles which the line of action of T forms with the positive x-, y-, and z-axes. - Calculate the projection of P onto a line between A and Fand determine the angle between P and AF. Determine the vector expression for the moment of P about point E. 1 Add file
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