Design a timber glue-lam beam made from douglas fir for the given load in the figure below. 670 lbs/ft 18'-0 A 3.

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Calculate: The end reactions, the maximum shear, the maximum moment, the required section modulus, and the required area.

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**Transcription for Educational Website** --- **Problem Statement:** 3. *Design a timber glue-laminated (glue-lam) beam made from Douglas fir for the given load in the figure below.* **Diagram Explanation:** The diagram illustrates a simply supported beam, labeled at its endpoints as A and B. The beam spans a total length of 18 feet (denoted as 18'-0"). The beam is subjected to a uniformly distributed load across its entire span. This load is specified as 670 pounds per foot (lbs/ft). The arrows along the top of the beam indicate the direction of the load, pointing downward towards the beam, signifying the force applied due to the weight distribution. These arrows are evenly spaced, representing the uniform nature of the load. The line indicating 18'-0" below the beam shows the total length of the beam between the supports at points A and B. **Objective:** To design an appropriate timber glue-lam beam using Douglas fir that can support the specified uniformly distributed load over the given span. The design must consider the material properties of Douglas fir and the calculated stresses and deflections to ensure the beam's performance and safety under the given loading conditions.