The ground snow load in Alberta, Canada varies depending on the location, but it is typically in the range of 20-30 pounds per square foot (psf) for residential areas. It is recommended to consult the National Building Code of Canada or local building authorities for specific information on snow load requirements in Alberta.
The snow load for a 1975 Champion double-wide mobile home would depend on the specific location and the building code in that area. It is recommended to consult local building authorities or a structural engineer to determine the appropriate snow load requirements for the specific site.
Snow load depends on geographic location, not on roof pitch. Most of Washington falls into the 25 psf snow load. Snoqualmie, for example, has a 50 psf snow load since it receives a higher amount of snow fall than an area such as Seattle. Your county building department can answer this question for your specific location and/or has a snow load map where you can look it up yourself.
Standard building techniques to ensure that structures can withstand forces like snow loads on a roof include using appropriate roof pitch angles to allow snow to slide off, reinforcing roof framing with trusses or rafters, and ensuring proper insulation to prevent ice dams. Additionally, engineers may specify snow load calculations and structural design requirements to meet building code standards for snow load resistance.
The snow load for Troy, Montana can vary depending on the specific location and elevation within the town. It is recommended to consult local building codes or a structural engineer to determine the snow load requirements for a specific site in Troy, Montana.
There is no Federal Law governing modular homes but there are federal HUD(Housing and Urban Development) regulations for the mobile home industry. The modular homes are regulated by the State building code requirements regarding safety, energy efficiency, snow load requirements for the roof, wind speed in certain areas, load requirements for the floors, etc.
Dead load refers to the weight of the permanent structure and materials of a building, such as walls, floors, and the roof. Live load refers to the weight of temporary or movable objects that are added to the structure, such as people, furniture, and snow.
Dead load is the total load of all of the components of the building that generally do not change over time, such as the steel columns, concrete floors, bricks, roofing material etc. Live load is the sum of the dead load plus the "live" occupants and temporary loads, such as staff in the building, desks, chairs, etc. Things that are contained in the building but do not make up its' construction. Dynamic load is loading which changes over time, such as wind pressure on the walls, snow loading on the roof, and even earthquake loads.
A 4-12 pitch with a 30lb snow load will hold approximately 6 feet of wet snow. If you went to a 40lb-snow load and kept the roof pitch at 4-12 your roof would be able to hold 8 feet of wet snow. We don't get that much dry powder in New England...:)
The roof snow load for Forks, Washington falls within the range of 40-60 pounds per square foot, given the region's location experiencing heavy snowfall. However, it is advisable to check with local building authorities or a structural engineer for the most accurate and up-to-date information for specific building requirements.
The typical snow load for Portland, Maine varies, but it is generally around 40 pounds per square foot. This can increase during heavy snow seasons or in areas with high accumulation. It is important to consult with local building codes and regulations for specific requirements.
From the USDA Forestry Division, they say the snow load for Missouri is 10-20psf. I would reccomend going with the higher of those