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A smarter way to learn with interactive, real-time conversations that help you test your knowledge, challenge assumptions, and deepen your understanding as you progress through the course. In this advanced course, you'll dive deep into the world of affine transformations and their critical role in game development. Starting with foundational concepts like matrices and homogeneous coordinates, you will gain the skills needed to apply complex mathematical transformations, including translation, scaling, rotation, and shearing, in real-world game development scenarios. Through practical video lessons, you’ll explore how these mathematical tools are applied to manipulate game objects and create more dynamic game environments. As you progress, you'll tackle hands-on challenges such as implementing shear and reflection transformations, followed by an introduction to quaternion rotations, which are essential for smooth and gimbal-lock-free 3D motion. The course culminates with a detailed exploration of quaternion rotations in Unity, preparing you for practical application in your projects. This course is ideal for those with a background in game development or computer science who wish to sharpen their mathematical understanding. Whether you are looking to enhance your game physics, improve animation, or better grasp the intricacies of 3D transformations, this course provides essential knowledge and tools. By the end of the course, you will be able to implement affine transformations in game engines, use quaternion rotations to prevent gimbal lock, apply scaling and translation matrices for object manipulation, and optimize game algorithms using matrix data structures.