Reverse engineering using CT (Computed Tomography) and MRI (Magnetic Resonance Imaging) scanners involves utilizing medical imaging technologies to capture internal structures and dimensions of an object.While we haven't personally applied CT and MRI scanners in practical reverse engineering scenarios, our theoretical knowledge and exposure to illustrative images have given us an understanding of their potential applications and benefits in the field.Although we haven't personally applied this technique in practice, we have studied it theoretically and observed illustrative images.These imaging technologies allow for non-destructive examination and provide valuable insights for creating accurate digital models or reproducing objects with intricate internal structures.CT scanners are particularly useful for capturing the density variations within an object, making them suitable for reverse engineering tasks that require precise measurements.These signals are processed by computer algorithms to generate high-resolution 3D images that showcase the object's internal structures, such as organs, muscles, and bones.By utilizing CT and MRI scanners, reverse engineering practitioners can obtain a comprehensive understanding of an object's internal features and dimensions.MRI scanners provide excellent soft tissue contrast, making them valuable for reverse engineering applications involving complex anatomical structures.CT scanners use X-rays to create cross-sectional images of an object.