As part of a check on its design, a lower A-arm (part of an automobile suspension) is supported by bearings at A and Band subjected to the pair of 910-N forces at C and D. The suspension spring, not shown for clarity, exerts a force FSat E as shown, where E is in plane ABCD. Determine the magnitude FS of the spring force and the magnitudes FA and FB of the bearing forces at A and B which are perpendicular to the hinge axis AB. Fs=____N Fa=____N Fb=____ N
As part of a check on its design, a lower A-arm (part of an automobile suspension) is supported by bearings at A and Band subjected to the pair of 910-N forces at C and D. The suspension spring, not shown for clarity, exerts a force FSat E as shown, where E is in plane ABCD. Determine the magnitude FS of the spring force and the magnitudes FA and FB of the bearing forces at A and B which are perpendicular to the hinge axis AB. Fs=____N Fa=____N Fb=____ N
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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As part of a check on its design, a lower A-arm (part of an automobile suspension) is supported by bearings at A and Band subjected to the pair of 910-N forces at C and D. The suspension spring, not shown for clarity, exerts a force FSat E as shown, where E is in plane ABCD. Determine the magnitude FS of the spring force and the magnitudes FA and FB of the bearing forces at A and B which are perpendicular to the hinge axis AB.
Fs=____N
Fa=____N
Fb=____ N

Transcribed Image Text:The image is a diagram of a structural component, which includes a cylindrical object supported by a frame. Key elements in the diagram are labeled with dimensions and forces, and some points are marked with letters for reference.
- The cylinder is rolled around a point labeled “A” and measures 450 mm in length.
- A force \( F_s \) is applied at a 30° angle at point “B.”
- Distance from point “B” to the perpendicular surface is 160 mm.
- The thickness from the surface at “B” to the bottom of the frame is 190 mm.
- Another vertical thickness shown from where force is applied to the roller’s bottom edge is 190 mm.
- The bottom horizontal section of the frame is 130 mm in length.
- The frame rests on supports or rollers at points “C” and “D.”
- Two upward forces, each measuring 910 N, are applied at points “C” and “D.”
- There is an opening or section labeled “E” in the frame, slightly below the direction of \( F_s \).
This diagram illustrates the application of forces and structural dimensions essential for understanding load distribution and mechanical stability.
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