What is the magnitude of torque given for the 17 kg particle?

To determine the magnitude of torque acting on a particle, you can use the formula for torque, which is given by the equation τ = r × F, where τ is the torque, r is the distance from the pivot point to the point of force application, and F is the force applied. Torque is generated when a force is applied at an angle, or at a perpendicular distance from the line of action of the force to the pivot point.

In this case, if the correct answer is indicating a torque magnitude of 0.00 Nm, it suggests that either no force is being applied to the particle, or if there is a force, it is acting directly at the pivot point, leading to a radius of zero, resulting in no torque being generated. This aligns with the concept that if there is no distance to apply a rotational effect, torque will also be null.

Additionally, if the forces at play do not create a tendency for the object to rotate around the pivot due to their application points or orientations, the torque will still remain zero. Understanding these principles helps clarify how torque behaves under different forces and configurations, which is critical in physics applications involving rotational dynamics.