Elongation
A titanium rod with a cross sectional area of 20 cm^2 in the below figure is placed under tension. Determine the elongation if the Modulus of Elasticity (E) = 105 x 10^9 N/m^2.
Expand Hint
$$$\delta =\frac{PL}{AE}$$$
where
$$\delta$$
is the elastic longitudinal deformation,
$$L$$
is the length of member,
$$P$$
is the loading,
$$A$$
is the cross sectional area, and
$$E$$
is Modulus of Elasticity.
Hint 2
Remember to keep track of units when solving for
$$\delta$$
.
Uniaxial Loading and Deformation:
$$$\delta =\frac{PL}{AE}$$$
where
$$\delta$$
is the elastic longitudinal deformation,
$$L$$
is the length of member,
$$P$$
is the loading,
$$A$$
is the cross sectional area, and
$$E$$
is Modulus of Elasticity.
Plugging in the values (keep track of units):
$$$\delta =\frac{PL}{AE}=\frac{45N\cdot 1m}{0.002m^2\cdot 105\times 10^9\frac{N}{m^2}}=\frac{45m}{210,000,000}$$$
$$$\delta =2.14\times 10^{-7}\:m=0.000214\:mm$$$
0.000214 mm
Time Analysis
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