Question

A bar $ABC$ of length $L$ consists of two parts of equal lengths but different diameters. Segment $AB$ has diameter $d_1 = 100$ mm, and segment $BC$ has diameter $d_2 = 60$ mm. Both segments have length $\frac{L}{2} = 1$ m. A longitudinal hole of diameter $d$ is drilled through segment $AB$ for one-half of its length (distance $\frac{L}{4} = 0.5$ m). The bar is made of plastic having modulus of elasticity $E = 7.0$ GPa. Compressive loads $P = 115$ kN act at the ends of the bar. (a) If the shortening of the bar is limited to 8.0 mm, what is the maximum allowable diameter $d_{max}$ of the hole? Round your answer to one decimal place. $d_{max} = \boxed{\phantom{00.0}}$ mm (b) Now, if $d_{max}$ is instead set at $\frac{d_2}{2}$, at what distance $b$ from end $C$ should load $P$ be applied to limit the bar shortening to 8.0 mm? Round your answer to one decimal place. $b = \boxed{\phantom{00.0}}$ mm (c) Finally, if loads $P$ are applied at the ends and $d_{max} = \frac{d_2}{2}$, what is the permissible length $x$ of the hole if shortening is to be limited to 8.0 mm? Round your answer to one decimal place. $x = \boxed{\phantom{00.0}}$ mm

Name: a bar abc of length l consists of two parts of equal lengths but different diameters segment ab has diameter d1 100 mm and segment bc has diameter d2 60 mm both segments have length fracl2 44354
Uploaded: 2022-03-25T05:54:49-08:00
Duration: 4 min 45 s
Channel: Krishna G
Description: a bar abc of length l consists of two parts of equal lengths but different diameters segment ab has diameter d1 100 mm and segment bc has diameter d2 60 mm both segments have length fracl2 44354

          A bar $ABC$ of length $L$ consists of two parts of equal lengths but different diameters. Segment $AB$ has diameter $d_1 = 100$ mm, and segment $BC$ has diameter $d_2 = 60$ mm. Both segments have length $\frac{L}{2} = 1$ m. A longitudinal hole of diameter $d$ is drilled through segment $AB$ for one-half of its length (distance $\frac{L}{4} = 0.5$ m). The bar is made of plastic having modulus of elasticity $E = 7.0$ GPa. Compressive loads $P = 115$ kN act at the ends of the bar.
(a) If the shortening of the bar is limited to 8.0 mm, what is the maximum allowable diameter $d_{max}$ of the hole? Round your answer to one decimal place.

$d_{max} = \boxed{\phantom{00.0}}$ mm

(b) Now, if $d_{max}$ is instead set at $\frac{d_2}{2}$, at what distance $b$ from end $C$ should load $P$ be applied to limit the bar shortening to 8.0 mm? Round your answer to one decimal place.

$b = \boxed{\phantom{00.0}}$ mm

(c) Finally, if loads $P$ are applied at the ends and $d_{max} = \frac{d_2}{2}$, what is the permissible length $x$ of the hole if shortening is to be limited to 8.0 mm? Round your answer to one decimal place.

$x = \boxed{\phantom{00.0}}$ mm

$a bar abc of length l consists of two parts of equal lengths but different diameters segment ab has diameter d1 100 mm and segment bc has diameter d2 60 mm both segments have length fracl2 44354$

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