If you bend a rod down, it compresses the lower side of the rod and stretches the top, resulting in a restoring force. Shown is a beam of length L, width w, and thickness t fixed at one end and free to move at the other. Deflecting the end of the beam causes a restoring force F at the end of the beam. The magnitude of the restoring force F depends on the dimensions of the beam, the Young’s modulus Y for the material, and the deflection d. For small values of the deflection, the restoring force is F = [(Ywt3)/(4L3)]dThis is similar to the formula for the restoring force of a spring, with the quantity in brackets playing the role of the spring constant k.When a 70 kg man stands on the end of a springboard (a type of diving board), the board deflects by 4.0 cm.A 70 kg man jumps up and lands on the end of the board, deflecting it by 12 cm. At this instant, what is the approximate magnitude of the upward force the board exerts on his feet?A. 700 N B. 1400 NC. 2100 N D. 2800 N If the beam is pusheddown, there is anupward restoring force.PIFIGURE I.4

The given relation for the restoring force is

Answered: If the beam is pushed down, there is an…

College Physics

1st Edition

ISBN:9781938168000

Author:Paul Peter Urone, Roger Hinrichs

Publisher:Paul Peter Urone, Roger Hinrichs

Chapter25: Geometric Optics

Section: Chapter Questions

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If you bend a rod down, it compresses the lower side of the rod and stretches the top, resulting in a restoring force. Shown is a beam of length L, width w, and thickness t fixed at one end and free to move at the other. Deflecting the end of the beam causes a restoring force F at the end of the beam. The magnitude of the restoring force F depends on the dimensions of the beam, the Young’s modulus Y for the material, and the deflection d. For small values of the deflection, the restoring force is
F = [(Ywt³)/(4L³)]^d
This is similar to the formula for the restoring force of a spring, with the quantity in brackets playing the role of the spring constant k.
When a 70 kg man stands on the end of a springboard (a type of diving board), the board deflects by 4.0 cm.

A 70 kg man jumps up and lands on the end of the board, deflecting it by 12 cm. At this instant, what is the approximate magnitude of the upward force the board exerts on his feet?
A. 700 N B. 1400 N
C. 2100 N D. 2800 N

If the beam is pushed
down, there is an
upward restoring force.
PI
FIGURE I.4

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If the beam is pushed down, there is an upward restoring force. PI FIGURE I.4