Ft and inches calculator

Enter the length in feet (ft) + inches (in) and press the Convert button: From To Feet+inches ft in keyboard --> Feet in Calculation Feet to feet+inches ► How to convert feet+inches to feet 1 foot is equal to 12 inches: 1ft = 12″ The distance d in feet (ft) is equal to the distance d in feet (ft) plus the distance d in inches (″) divided by 12: d(ft) = d(ft) + d(″)/12 Example Convert 2 feet + 3 inches to feet: d(ft) = 2ft + 3″/12 = 2.25ft Feet to inches conversion table Feet (ft) Inches (") 0.01 ft 0.12 ″ 0.1 ft 1.2 ″ 0.2 ft 2.4 ″ 0.3 ft 3.6 ″ 0.4 ft 4.8 ″ 0.5 ft 6.0 ″ 0.6 ft 7.2 ″ 0.7 ft 8.4 ″ 0.8 ft 9.6 ″ 0.9 ft 10.8 ″ 1 ft 12 ″ 2 ft 24 ″ 3 ft 36 ″ 4 ft 48 ″ 5 ft 60 ″ 6 ft 72 ″ 7 ft 84 ″ 8 ft 96 ″ 9 ft 108 ″ 10 ft 120 ″ 100 ft 1200 ″ Feet to feet+inches ► See also Feet to feet+inches conversion Feet to cm conversion Feet to mm conversion Feet to meters conversion mm to inches conversion cm to inches conversion Meters to inches conversion BMI calculator

Area to Cover (Square Feet): Desired Coverage Depth (Inches): Note: A standard bale of pine straw typically covers around 35-50 square feet at a depth of 2-3 inches. For deeper coverage, you may need more bales. When you’re planning to mulch a 2,500 sq ft garden area with a 3-inch depth, the pine straw calculator factors in the compression ratio (typically 2.5:1) and coverage rate (one bale covers approximately 50-75 sq ft at 1-inch depth).For a 500 sq ft flower bed requiring 2-inch depthArea: 500 sq ftDesired depth: 2 inchesCoverage per bale: 60 sq ft (at 1-inch depth)Calculation: (500 × 2) ÷ 60 = 16.67 balesRounded up: 17 bales neededSmall Garden Bed: Area: 200 sq ft Depth: 3 inches Calculation: (200 × 3) ÷ 60 = 10 balesLarge Commercial Space: Area: 3,000 sq ft Depth: 2 inches Calculation: (3,000 × 2) ÷ 60 = 100 balesResidential Landscape: Area: 1,500 sq ft Depth: 4 inches Calculation: (1,500 × 4) ÷ 60 = 100 balesTree Ring: Area: 50 sq ft Depth: 3 inches Calculation: (50 × 3) ÷ 60 = 2.5 balesPathway Coverage: Area: 300 sq ft Depth: 2 inches Calculation: (300 × 2) ÷ 60 = 10 balesPine Straw Calculation FormulaThe formula is: (Square Footage × Desired Depth) ÷ Coverage per Bale = Number of Bales NeededA slope factor of 1.2 for inclined areas. For example, a 400 sq ft sloped area at 2-inch depth:(400 × 2 × 1.2) ÷ 60 = 16 balesHow do I calculate how much pine straw I need?For L-shaped garden:Section 1: 20' × 30' = 600 sq ftSection 2: 15' × 10' = 150 sq ftTotal area: 750 sq ftAt 3-inch depth: (750 × 3) ÷ 60 = 37.5 balesRound up to 38 balesHow many bales of straw do I need to cover 1000 square feet?For 1,000 sq. ft. coverage:Thickness 2 inches: 14-16 balesThickness 3 inches: 20-22 balesThickness 4 inches: 25-28 balesFor 1000 square feet, the calculation varies based on desired depth. (1000 × 2) ÷ 60 = 33.33 balesRound up to 34 balesHow much does a bale of pine straw cost?Prices typically range from $3.50 to $7.00 per bale, varying by:Residential Purchase: $5-$6 per bale Commercial Bulk Order: $4-$5 per bale Premium Organic Sources: $7-$8 per baleWhat is Pine Straw?Pine straw consists of pine tree needles naturally shed and collected for landscaping. The most valuable types come from Longleaf, Slash, and Loblolly pines, known for

Estimated Fastener Bolt Clamp Force Torque Calculator Fastener and Screw / Bolt Design Formula Design DataStrength of Materials See Torque Force Design Equations webpage and torque chart page for recommended fastener torque and equation data. This calculator uses a practical starting point for all threaded fastener tightening analysis and uses the basic elastic torque-tension equation.This fastener bolt torque calculator will Estimate the unknown torque, diameter, axial force applied and coefficient of turning friction for the given conditions. Minimum three (3) inputs are required then select "Find" button to get unknown Similar resources Threaded Fastener Design and Analysis white Paper (39 page, detail engineering anaylsis of fastent torque and forces) Free Membership required Fastener Relation Between Torque, Thread Pitch and Clamping Force Formula and Calculator Fastener Relation Between Bolt Torque and Clamping Force Formula and Calculator per. JIS B 1083Instructions: 1) Enter known number values (two inputs minimum) within center located input boxes. 2) Select associated lower button to calculate unknown value. 3) This calculator may be used with any consistent units, e.g. torque = ft-lbs with ft, in-lbs with inches, N-mm with mm. Force is calculated consistent with units used. Note: This calculator initially assumes dry and perfect threads made from steel and/or zinc plated. Calculated values are approximate. Calculated values do not compensate for materials stiffness. Using this calculator: Keep the units consistant, examples torque (N-mm), fastener dia. (mm) and force (N) torque (in-lbs), fastener dia. (in) and force (lbs) torque (ft-lbs), fastener dia. (ft) and force (lbs) Bolt Torque Force Design Equations Torque Applied (N-mm, in-lbs, ft-lbs) = Fastener Bolt Major Diameter (mm, in., ft) = Coefficient of Friction Steel 0.2 Cadmium 0.16 Lubricated 0.16 - 0.17 = Axial Bolt "Clamp" Force (N, lbs, lbs) = Related: Torque Conversion Torque Design Guidelines Stud Preload Calculator Bolt Preload Tension Equation and Calculator Torque vs Tension Bolts Table Chart SAE J429 Bolts Threaded Hole Fastener Pullout Stress Screw Stress Area 100 ksi & Greater Bolt Stress Area less Than 100 ksi Link to this Webpage: Copy Text to clipboard © Copyright 2000 -2025, by Engineers Edge, LLC www.engineersedge.comAll rights reservedDisclaimer |Feedback Advertising| Contact

Spray Foam Board Foot Calculator Length (feet): Width (feet): Thickness (inches): Spray Foam Board Foot Calculator: A Comprehensive GuideIntroductionSpray foam board foot calculator is a valuable tool, Spray foam insulation stands out as a top choice in the realm of construction for its remarkable sealing properties and exceptional insulation capabilities. When it comes to estimating the quantity of spray foam required, understanding the concept of board feet becomes pivotal.Understanding Board FeetFirst and foremost, let’s elucidate what a board foot signifies in the context of insulation. A board foot serves as a standardized unit of measurement predominantly employed in the realm of lumber. It represents the volume of wood equivalent to a board measuring 12 inches by 12 inches by 1 inch, or its proportional dimensions. In the domain of spray foam insulation, we leverage board feet to gauge the volume of foam required to adequately cover a specified area at a particular thickness.Deciphering the FormulaLength: Refers to the length of the area earmarked for insulation, typically measured in feet.Width: Denotes the width of the designated insulation zone, conventionally measured in feet.Thickness: Represents the desired thickness of the foam insulation layer, usually measured in inches.12: This constant serves as the conversion factor, facilitating the transition from cubic inches to cubic feet, given that there are 12 inches in a foot.By multiplying the length, width, and thickness of the area earmarked for insulation and subsequently dividing the product by 12, we ascertain the total board feet of spray foam insulation requisite for the task at hand.Illustrative ExampleLet’s elucidate the formula through an illustrative example:Imagine we’re tasked with insulating a wall measuring 10 feet in length and 8 feet in height, aiming for a foam thickness of 3 inches.Board Feet = (10 feet × 8 feet × 3 inches) / 12 = (80 ft² × 3 inches) / 12 = (240 in³) / 12 = 20 ft³Hence, we deduce that 20 board feet of spray foam insulation are requisite to effectively cover the wall at a thickness of 3 inches.Wrapping it upMastering the art of calculating board feet for spray foam insulation is indispensable for precise estimation of material requirements. Armed with the simple yet potent formula delineated, you gain the capability to accurately gauge the volume of spray foam needed for your insulation endeavors. Whether you’re embarking on a modest residential project or overseeing a large-scale commercial venture, proficiency in this formula empowers you to plan and execute your insulation projects with utmost precision and efficiency.