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A 6-inch diameter concrete cylinder carries an axial compressive load of 141,300 lb just before failure. Determine the compressive stress in the concrete just before failure, in lb/in².

Answer :

The compressive stress is [tex]500Ib/in^2[/tex]

How to determine the value

The formula that is used for calculating compressive stress is expressed as;

Stress = Load/Area

The area of the concrete cylinder can be calculated as area of a circle written as;

Area = πr²

Where r is the radius and π takes the constant value of 3.14

From the information given, we have that the diameter of the cylinder is 6

but diameter = 2 radius

then, we get;

Radius = 3 inches.

Substitute the value, we get;

Area = π × 3²

Find the square

Area = 28. 26 square inches

Compressive stress = Load/Area

= 141,300 / 28. 26

Divide the value

= [tex]500Ib/in^2[/tex]

Learn more about compressive stress at: https://brainly.com/question/29488474

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