Q4.4. What is the magnitude of the force on the board due to the Fulcrum? Answer inNewtons07901270354027003340Check Answer Q4.2. A springboard-type diving board is built from high grade aluminum. This particularboard has a mass of 65 kg and is 3.85 m long. 33.8 cm wide, and 5 cm thick. (Aside: Mostspringboards start thick on one end, then get thinner as it moves to the other end. For thisproblem, assume the springboard has a constant thickness)One end of the springboard is attached to a hinge. The hinge lets the springboard move upand down, but keeps it from sliding out of place. 1.1 m away from the hinge, thespringboard rests on (but is not attached to) a fulcrum.A diver with a mass of 65 kg stands on the far end of the springboard (opposite from thehinge), ready to begin their dive.Hinge FulcrumNote: the measurements for this problem were taken from the springboards used in the2016 Summer Olympics, 3 m Springboard event.

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Answered: Q4.4. What is the magnitude of the…

Q4.4. What is the magnitude of the force on the board due to the Fulcrum? Answer in Newtons 0 790 1270 3540 2700 3340 Check Answer

Physics for Scientists and Engineers: Foundations and Connections

1st Edition

ISBN:9781133939146

Author:Katz, Debora M.

Publisher:Katz, Debora M.

Chapter14: Static Equilibrium, Elasticity, And Fracture

Section: Chapter Questions

Problem 81PQ: A horizontal, rigid bar of negligible weight is fixed against a vertical wall at one end and...

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Newton’s Third Law of Motion

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Question

Q4.4. What is the magnitude of the force on the board due to the Fulcrum? Answer in
Newtons
0
790
1270
3540
2700
3340
Check Answer

Q4.2. A springboard-type diving board is built from high grade aluminum. This particular
board has a mass of 65 kg and is 3.85 m long. 33.8 cm wide, and 5 cm thick. (Aside: Most
springboards start thick on one end, then get thinner as it moves to the other end. For this
problem, assume the springboard has a constant thickness)
One end of the springboard is attached to a hinge. The hinge lets the springboard move up
and down, but keeps it from sliding out of place. 1.1 m away from the hinge, the
springboard rests on (but is not attached to) a fulcrum.
A diver with a mass of 65 kg stands on the far end of the springboard (opposite from the
hinge), ready to begin their dive.
Hinge Fulcrum
Note: the measurements for this problem were taken from the springboards used in the
2016 Summer Olympics, 3 m Springboard event.

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