HW: 2-1-4 Using the parallelogram law, graphically find the magnitude of the resultant of F, and...
HW: 2-1-12 Using the parallelogram law, trigonmetrically find the magnitude of the resultant of F, and F2 knowing that F1-250N and F2-175% Use the squares in the figure to determine the directions of the forces. Example, ø- tan1 (rise/run) Answer(s): 2 Force magnitudes are not drawn to scale.
HW: 2-1-8 Using the parallelogram law, graphically find the smallest F, if the resultant is horizontal with a magnitude of 1000lb. Also find F2. Use the scale 1in- 250b. Hint: See video 2-10. You may want to also do Hw 2-1-7 to see the major difference with just a slight change in wording. Also see video 2-04 Answer(s): 45° 2
BC: 2-1-1-6 Using the parallelogram law, graphically find the magnitude of the resultant of the two forces. Use the scale 1in= 15016. Answer(s): 15° 150b 750lb
a. using the graphical/semi-graphical (parallelogram law) to
determine the magnitude of F1 and inclination theta of F2
b. use the algebraic method to determine the magnitude of F1 and
the inclination theta of F2
HW (2-2) The two forces shown act in the x-y plane of the T-beam cross section. If it is known that the resultant R of the two forces has a magnitude of 3.5 kN and a line of action that lies 15° above the negative x-axis,...
Use the parallelogram law or triangle rule to solve 1-P1 through 1-P4 1-P1. Determine the magnitude of the resultant force FR-Fi+F2 and its direction, measured clockwise from the positive y axis F-350 lb 30 45° F2-275 lb