Lab report Example | Topics and Well Written Essays - 1000 words - 4

Lab Report Example On the shortest axis, the dynamic moment of inertia was more than the static inertia. This also applies to the longest axis where the dynamic moment is far more large than the static. The difference noticed from the determined dynamic and static moment of inertias is an illustration that the rotational axis has a core function in rotational motion. In normal case, especially where there are no deformations, the dynamic moment of inertia and static moment of inertia are equal, except for small errors that may result from experimental undertakings. The difference exhibited between the two moments of inertia can be attributed to the change in the rotational axis. As the axis is moved from the shortest hole to the longest hole, the deformation (change) contributes to the change in the resistance of the object to angular acceleration. Just like in linear motion where, when the object is rotated about a long axis, the acceleration is likely to reduce as compared to when subjected to a shorter axis. Further, the friction was also determined to be a contributing factor to the difference between static and dynamic moment of inertia. Intuitively, dynamic cases are susceptible to friction effect because of the movement exhibited, unlike in static where an object is fixed. As shown by the higher value of dynamic moment of inertia than static moment of inertia, friction had a stake in this. In which case, friction resulted to a too high value for Id during the experiment. Friction force acts in slowing down the rotational acceleration consequently enforcing the ability of the object to resist the angular acceleration. Consequently, addition of friction adds to the resistance of the object to friction, which in turn increases the total dynamic moment of inertia. In the case of static moment of inertia, there is no friction exhibited consequently the resistance (moment of inertia) is not in any way affected. The results show that the rotational kinetic