What is the minimum required concrete footing width and thickness for a 2-story wood framed dwelling with brick veneer and a basement built on soil with a load-bearing capacity of 1500 pounds per square foot?

The minimum required concrete footing width and thickness for a 2-story wood-framed dwelling with brick veneer and a basement is crucial for ensuring that the structure can adequately distribute the loads imposed by the building and withstand the forces acting on it.

Considering the design criteria, a 2-story wood-framed building typically requires a footing capable of supporting significant vertical loads. The load-bearing capacity of the soil is also an essential factor—in this case, 1500 pounds per square foot is considered moderate and can influence the dimensions needed for proper footing design.

To determine the appropriate footing dimensions, local building codes and engineering principles come into play, which often specify that for such structures, footings must be wide enough to prevent settlement and structurally sound enough to support the weight of the dwelling and the additional live loads, such as occupants and furniture.

A width of 27 inches and a thickness of 9 inches is suitable for a 2-story wood-framed dwelling in this scenario. Such dimensions allow for sufficient bearing area on the ground to distribute the building's load effectively. The larger width helps ensure that the footing does not sink into the soil, particularly when considering potential variations in moisture and soil compressibility.

In this context, other options may not provide the