Torque to Weight Calculator:
Enter the values of torque, T(N.m) and distance, D(m) to determine the value of Weigth, W(N).
Torque to Weight Formula:
Torque is a measure of the rotational force applied to an object, which causes it to rotate around an axis. It is typically calculated as the product of the force applied and the distance from the point of application to the axis of rotation. In the context of weight, torque can be used to evaluate the effectiveness of weight distribution in various mechanical systems. The relationship between torque and weight is crucial in fields like engineering, automotive design, and physics, as it determines how effectively an object can be moved or rotated.
In many applications, torque (T) can be directly related to weight (W) through the formula W=T/D, where D is the distance from the pivot point to where the weight is applied. The effectiveness of torque is influenced by the magnitude of the applied force and the lever arm’s length, which amplifies the force’s effect. Understanding the relationship between torque and weight allows engineers to design safer and more efficient systems by properly balancing forces and moments.
When calculating torque, it is essential to consider the direction of the applied force, as torque can be positive or negative depending on the rotation’s sense. This relationship is vital in applications such as vehicle dynamics, where weight distribution affects handling and stability.
Weigth, W(N) in Newtons equals by dividing the torque, T(N.m) in Newton metres by distance, D(m) in metres.
Weigth, W(N) = T(N.m) / D(m)
W(N) = weight in Newton, N.
T(N.m) = torque in Newton metres, N.m.
D(m) = distance in metres, m.
Torque to Weight Calculation of Formula:
1.A weight of 120 N is applied at a distance of 3 m from the pivot point. Calculate the torque produced.
Given: W(N) = 120N, D(m) = 3m.
Weigth, W(N) = T(N.m) / D(m)
T(N.m) = W(N) * D(m)
T(N.m) = 120 * 3
T(N.m) = 360N.m.
2.An object exerts a torque of 300 Nm at a distance of 2 m from the pivot point. Calculate the weight of the object.
Given: T(N.m) = 300N.m, D(m) = 2m.
Weigth, W(N) = T(N.m) / D(m)
W(N) = 300 / 2
W(N) = 150N.