Figure Q1c shows a bracket on rollers that allow the bracket to move along a beam in the horizontal direction. A force F₁ of 2625 N acts at point A where the angle between F₁ and the x-axis is 100. If force F2 acts at an angle a = 40° between F2 and the y-axis: (1) (ii) Give your answers to the nearest newton (N) to 2 decimal places. Assume coplanar forces and assume horizontal rolling is frictionless. Determine the magnitude of F2 necessary to maintain bracket on horizontal equilibrium. Determine the vertical force at A acting along the y-axis. F1 0 y α Figure Q1c F2 X
Figure Q1c shows a bracket on rollers that allow the bracket to move along a beam in the horizontal direction. A force F₁ of 2625 N acts at point A where the angle between F₁ and the x-axis is 100. If force F2 acts at an angle a = 40° between F2 and the y-axis: (1) (ii) Give your answers to the nearest newton (N) to 2 decimal places. Assume coplanar forces and assume horizontal rolling is frictionless. Determine the magnitude of F2 necessary to maintain bracket on horizontal equilibrium. Determine the vertical force at A acting along the y-axis. F1 0 y α Figure Q1c F2 X
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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Transcribed Image Text:Figure Q1c shows a bracket on rollers that allow the bracket to move along a beam
in the horizontal direction. A force F₁ of 2625 N acts at point A where the angle
between F₁ and the x-axis is 100. If force F2 acts at an angle a = 40° between F2
and the y-axis:
(1)
(ii)
Give your answers to the nearest newton (N) to 2 decimal places.
Assume coplanar forces and assume horizontal rolling is frictionless.
Determine the magnitude of F2 necessary to maintain bracket on horizontal
equilibrium.
Determine the vertical force at A acting along the y-axis.
F1
0
y
α
Figure Q1c
F2
X
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