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Dragos Durlut · Answer 1 · 2020-08-27T20:13:16+0000

Answer:

Circular tube

Step-by-step explanation:

Now for better understanding lets take an example

Lets take

Diameter of solid bar=
4√(2) cm

Outer diameter of tube =6 cm

Inner diameter of tube=2 cm

So from we can say that both tubes have equal cross sectional area.

We know that buckling load is given as
$P = (\pi ^2EI)/(L_e^2)$

If area moment of inertia(I) is high then buckling load will be high.

We know that area moment of inertia(I)

For circular tube
$I = (\pi )/(64)(D_o^4-D_i^4)$

For circular bar
$I = (\pi )/(64)D^4$

Now by putting the values

For circular tube
I=62.83 cm^4

For circular bar
I=50.26 cm^4

So we can say that for same cross sectional area the area moment of inertia(I) is high for tube as compare to bar.So buckling load will be higher in tube as compare to bar.

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