The size of the beam required to span 6 feet depends on various factors including the type of material (wood, steel, etc.), the load it must support, and the beam's intended use. For example, a typical wooden beam made of Douglas fir-larch might be a 2x8 or 2x10, while a steel beam could be an I-beam with specific dimensions based on load calculations. It's essential to consult local building codes and possibly a structural engineer for precise recommendations.
1 ft by 1.2 ft... verticaly 1.2ft
6 feet 6 inches
Only if it is at least 12' long.
The size of rebar used in a reinforced cement concrete (RCC) beam typically depends on the design load, span, and structural requirements. For a simply supported beam of 17 feet, common rebar sizes range from #4 (1/2 inch diameter) to #6 (3/4 inch diameter) for main reinforcement, with additional smaller bars for stirrups. However, it is crucial to consult structural engineering guidelines or a structural engineer to determine the appropriate rebar size and spacing based on the specific loading conditions and design codes.
The size of a timber beam needed to span 6 meters depends on various factors, including the load it will carry, the type of wood, and the design specifications. Generally, for a typical residential application, a beam of at least 190mm x 45mm (or similar) may be used, but larger dimensions like 240mm x 45mm could be necessary for heavier loads. It's essential to consult local building codes and possibly a structural engineer for precise calculations tailored to your specific situation.
popo and kaka
It's 6 feet.
Depends on the material the I-beam is made out of. Steel? Is it a wood I-joist? And I-beams come in different "flavors" as regards the geometry and cross section of the web. Variables in a question make for a variable answer.
A 4x4 piece of lumber can typically span about 6 to 8 feet when used as a vertical post in construction, depending on the load it needs to support and the type of wood. However, if used horizontally as a beam, the span is generally limited to around 4 to 6 feet without additional support. It's crucial to consult local building codes and consider factors like the wood species and the load to ensure safety and structural integrity.
I think about 6 feet long
(6 inches) * (6 inches) * (12 feet) of Steel ≈ 666.86173743 kilogram (6 inches) * (6 inches) * (12 feet) of Steel ≈ 1470.178471983556 pound (6 inches) * (6 inches) * (12 feet) of Aluminum ≈ 229.36645746 kilogram (6 inches) * (6 inches) * (12 feet) of Aluminum ≈ 505.666480809631 pound (6 inches) * (6 inches) * (12 feet) of Iron ≈ 662.61421044 kilogram (6 inches) * (6 inches) * (12 feet) of Iron ≈ 1460.814277894489 pound (6 inches) * (6 inches) * (12 feet) of Copper ≈ 758.608320414 kilogram (6 inches) * (6 inches) * (12 feet) of Copper ≈ 1672.445064307409 pound
The recommended deck beam spacing for optimal structural support and stability is typically around 6 to 8 feet apart, depending on the size and load capacity of the beams.