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Chapter 9: Q77GP (page 230)

If the left vertical support column in Example 9鈥5 is made of steel, what is its cross-sectional area? Assume that a safety factor of 3 was used in its design to avoid fracture.

Short Answer

Expert verified

The cross-sectional area of the steel support is \(2.6 \times {10^{ - 4}}\;{{\rm{m}}^2}\).

Step by step solution

01

Identification of the given data

The compressive strength of steel is\(\sigma = 500 \times {10^6}\;{\rm{N/}}{{\rm{m}}^2}\).

The force in the left vertical support column is\({F_{{\rm{left}}}} = 44100\;{\rm{N}}\).

02

Definition of stress

Stress is defined as the force experienced by a body per unit area. The formula for stress is

\(\sigma = \frac{{{\rm{Force}}}}{{{\rm{Area}}}} = \frac{F}{A}\). 鈥 (i)

03

Evaluation of the cross-sectional area of the support column

If the force in the left vertical support is increased by a factor of 3, then

\(\begin{array}{c}F' = 3{F_{{\rm{left}}}}\\ = 3\left( {44100\;{\rm{N}}} \right)\\ = 132300\;{\rm{N}}\end{array}\)

Using equation (i),

\(\begin{array}{c}A = \frac{{F'}}{\sigma }\\ = \frac{{132300\;{\rm{N}}}}{{500 \times {{10}^6}\;{\rm{N/}}{{\rm{m}}^2}}}\\ = 2.646 \times {10^{ - 4}}\;{{\rm{m}}^2}\\ \approx 2.6 \times {10^{ - 4}}\;{{\rm{m}}^2}\end{array}\)

Thus, the cross-sectional area of the steel support is \(2.6 \times {10^{ - 4}}\;{{\rm{m}}^2}\).

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Most popular questions from this chapter

Parachutists whose chutes have failed to open have been known to survive if they land in deep snow. Assume that a 75-kg parachutist hits the ground with an area of impact of\(0.30\;{{\rm{m}}^2}\)at a velocity of\(55\;{\rm{m/s}}\)and that the ultimate strength of body tissue is\(5 \times {10^5}\;{\rm{N/}}{{\rm{m}}^2}\). Assume that the person is brought to rest in 1.0 m of snow. Show that the person may escape serious injury.

(II) One liter of alcohol \(\left( {{\bf{1000}}\;{\bf{c}}{{\bf{m}}^{\bf{3}}}} \right)\) in a flexible container is carried to the bottom of the sea, where the pressure is \({\bf{2}}{\bf{.6 \times 1}}{{\bf{0}}^{\bf{6}}}\;{\bf{N/}}{{\bf{m}}^{\bf{2}}}\). What will be its volume there?

The roof over a \({\bf{9}}{\bf{.0}}\;{\bf{m \times 10}}{\bf{.0}}\;{\bf{m}}\) room in a school has a total mass of 13,600 kg. The roof is to be supported by vertical wooden (actually about \({\bf{4}}{\bf{.0}}\;{\bf{cm \times 9}}{\bf{.0}}\;{\bf{cm}}\)) equally spaced along the 10.0-m sides. How many supports are required on each side, and how far apart must they be? Consider only compression, and assume a safety factor of 12.


In a mountain-climbing technique called the 鈥淭yrolean traverse,鈥 a rope is anchored on both ends (to rocks or strong trees) across a deep chasm, and then a climber traverses the rope while attached by a sling as in Fig. 9鈥91. This technique generates tremendous forces in the rope and anchors, so a basic understanding of physics is crucial for safety. A typical climbing rope can undergo a tension force of perhaps 29 kN before breaking, and a 鈥渟afety factor鈥 of 10 is usually recommended. The length of rope used in the Tyrolean traverse must allow for some 鈥渟ag鈥 to remain in the recommended safety range. Consider a 75-kg climber at the center of a Tyrolean traverse, spanning a 25-m chasm. (a) To be within its recommended safety range, what minimum distance x must the rope sag? (b) If the Tyrolean traverse is set up incorrectly so that the rope sags by only one-fourth the distance found in (a), determine the tension in the rope. Ignore stretching of the rope. Will the rope break?

A heavy ball suspended by a cable is pulled to the side by a horizontal force \(\vec F\), as shown in Fig. 9鈥43. If angle \(\theta \) is small, the magnitude of the force F can be less than the weight of the ball because

(a) the force holds up only part of the ball鈥檚 weight.

(b) even though the ball is stationary, it is not really in equilibrium.

(c) \(\vec F\) is equal to only the x component of the tension in the cable.

(d) the original statement is not true. To move the ball, \(\vec F\) must be at least equal to the ball鈥檚 weight.
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