# Foot-Pounds to Inch-Pounds Converter > Convert torque from foot-pounds (ft-lb) to inch-pounds (in-lb) with precision **Category:** Conversion **Keywords:** torque, foot-pounds, inch-pounds, ft-lb, in-lb, conversion, mechanics **URL:** https://complete.tools/foot-pounds-to-inch-pounds-converter ## How it calculates The conversion from foot-pounds to inch-pounds is performed using the formula: \[ \text{Torque (in-lb)} = \text{Torque (ft-lb)} × 12 \] In this formula, 'Torque (in-lb)' represents the torque value in inch-pounds, while 'Torque (ft-lb)' is the torque value in foot-pounds. The number 12 is the conversion factor that accounts for the number of inches in a foot. This relationship arises from the definition of torque and the basic metric-to-imperial conversion principles. When a torque value is multiplied by 12, the result provides the equivalent torque in inch-pounds, allowing for accurate measurements across different unit systems. ## Who should use this Mechanical engineers designing systems requiring precise torque specifications. Automotive technicians adjusting engine components to specified torque values. Construction professionals ensuring that hardware is tightened according to structural load requirements. DIY enthusiasts working on home improvement projects that involve torque settings for tools. Aerospace engineers calculating torque for fastening components in aircraft assemblies. ## Worked examples Example 1: A mechanical engineer needs to convert a torque value of 5 ft-lb for a motor specification. Using the conversion formula: \[ \text{Torque (in-lb)} = 5 \text{ ft-lb} × 12 = 60 \text{ in-lb} \] Thus, 5 ft-lb is equivalent to 60 in-lb. This conversion helps ensure that the torque applied meets the motor's requirements. Example 2: An automotive technician is tightening a bolt with a specified torque of 3 ft-lb. To convert this to inch-pounds, the calculation is: \[ \text{Torque (in-lb)} = 3 \text{ ft-lb} × 12 = 36 \text{ in-lb} \] The technician uses the 36 in-lb measurement to accurately set the torque wrench. Example 3: A construction worker needs to convert 10 ft-lb of torque for a structural component. The calculation is: \[ \text{Torque (in-lb)} = 10 \text{ ft-lb} × 12 = 120 \text{ in-lb} \] The worker applies 120 in-lb of torque to ensure the joint is secure. ## Limitations The converter assumes that the input value is always in foot-pounds and does not account for misentered values. The precision of the conversion is limited to the precision of the input value; if the input is rounded, the output will also reflect that rounding. This tool does not handle conversions for torque values that exceed typical mechanical limits (e.g., values greater than 1000 ft-lb may require specialized tools). Additionally, the tool operates under the assumption that the conversion factor remains constant and does not account for variations in torque due to factors like friction or material deformation. ## FAQs **Q:** What is the significance of torque in engineering applications? **A:** Torque is essential in engineering as it determines the rotational force applied to mechanical systems, affecting performance and safety. **Q:** How do I ensure accurate torque measurements in practice? **A:** Use calibrated torque wrenches and follow manufacturer specifications for the components being assembled or adjusted. **Q:** Can I convert from inch-pounds back to foot-pounds using this tool? **A:** No, this tool specifically converts from foot-pounds to inch-pounds. A separate calculation or tool is needed for the reverse conversion. **Q:** Are there any common errors when using torque measurements? **A:** Common errors include incorrect unit conversions, misreading torque specifications, and using the wrong tools for the required torque settings. --- *Generated from [complete.tools/foot-pounds-to-inch-pounds-converter](https://complete.tools/foot-pounds-to-inch-pounds-converter)*