The red hawk (Buteo Rufinus) is a medium-sized bird of prey with wide wings, belonging to the order Falconiformes and a member of the Accipitridae family. The red hawk is a wild bird species and is easily recognized by its black feathers and red color on its wing feathers. In poultry, the thoracic extremity is developed as a wing. Techniques such as radiography, computed tomography and magnetic resonance contribute significantly to the evaluation of biological data in endangered species and wildlife because they provide the best view of anatomical structures and organs, are non-invasive, and allow sensitive diagnoses. The aim of this study was to create 3D models of the humerus and antebrachium bones of the Red Hawk, an important bird of prey, with multi-detector computer tomography and to examine the bones mentioned morphologically and morphometrically through the models obtained. Humerus and antebrachium bones of a total of 6 dead adult red hawks, 3 females and 3 males, were used as materials. When the morphometric results were examined, the average humerus length, average ulna length and average radius length in Red hawks were expressed in mm for the left and right extremities, regardless of gender. Moreover morphometric measurements of the humerus, ulna and radius bones were compared statistically between the right and left wings, and it was concluded that there was a significant difference between some values with a value of p< 0.05.