1. What is Torque to Force Conversion?

The torque to force conversion calculates the linear force produced at a certain distance from a rotational axis. This is essential in mechanical engineering, automotive applications, and any system involving rotational motion.

2. How Does the Calculator Work?

The calculator uses the torque to force equation:

Where:

• \( F \) — Force (lb)
• \( \tau \) — Torque (lb-ft)
• \( r \) — Radius or moment arm (ft)

Explanation: The equation shows that force is directly proportional to torque and inversely proportional to the radius at which the force is applied.

3. Importance of Torque to Force Calculation

Details: This calculation is crucial for designing mechanical systems, determining bolt tension, calculating wheel traction, and understanding the relationship between rotational and linear forces.

4. Using the Calculator

Tips: Enter torque in pound-feet (lb-ft) and radius in feet (ft). Both values must be positive numbers.

5. Frequently Asked Questions (FAQ)

Q1: What's the difference between torque and force?
A: Torque is a rotational force (lb-ft) while force is a linear push or pull (lb). Torque depends on both the force and the distance from the pivot point.

Q2: How does radius affect the force?
A: For a given torque, the force decreases as the radius increases. This is why longer wrenches make it easier to turn bolts.

Q3: Can I use this for metric units?
A: The calculator uses imperial units. For metric, use N·m for torque and meters for radius to get force in newtons.

Q4: What if my radius is in inches?
A: Convert inches to feet by dividing by 12 before entering the value (1 inch = 1/12 ft).

Q5: What are typical applications?
A: Common uses include calculating bolt tension, wheel traction force, gear tooth forces, and any application where rotational motion creates linear force.