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Torque to Force Formula:
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Torque to force conversion calculates the linear force generated by a torque applied at a certain radius. This is fundamental in mechanical engineering and physics for understanding rotational systems and their linear equivalents.
The calculator uses the torque to force formula:
Where:
Explanation: The formula shows that force is directly proportional to torque and inversely proportional to the radius at which the torque is applied.
Details: This conversion is essential for designing mechanical systems, calculating loads, determining required motor specifications, and analyzing the mechanical advantage in various applications from automotive to industrial machinery.
Tips: Enter torque in Newton-meters and radius in meters. Both values must be positive numbers greater than zero for accurate calculation.
Q1: What units should I use for torque and radius?
A: Torque should be in Newton-meters (Nm) and radius in meters (m) for force to be calculated in Newtons (N).
Q2: Can I use different units with this calculator?
A: The calculator is designed for standard SI units. If using different units, convert them to Nm for torque and meters for radius before calculation.
Q3: What if the radius is zero?
A: Radius cannot be zero as it would result in division by zero, which is mathematically undefined. The calculator requires a positive radius value.
Q4: How accurate is this conversion?
A: The conversion is mathematically exact based on the formula F = T/r. Accuracy depends on the precision of your input values.
Q5: Where is this conversion commonly used?
A: This conversion is used in various applications including automotive engineering (calculating wheel force), mechanical design (gear systems), robotics (actuator force calculation), and physics experiments.