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Angle rotation about 2 axes is a mathematical concept that describes the process of rotating an object or point in a 3-dimensional space around two different axes. This results in a change in the orientation of the object or point.
Rotation about a single axis involves rotating an object or point around only one axis, while angle rotation about 2 axes involves rotating around two different axes simultaneously. This creates a more complex rotation and can result in a different final orientation of the object or point.
The formula for angle rotation about 2 axes involves using matrices to represent the rotation around each axis, and then multiplying these matrices together to get the final rotation matrix. This can be expressed as R = R1 * R2, where R is the final rotation matrix, R1 is the matrix for the first rotation, and R2 is the matrix for the second rotation.
Angle rotation about 2 axes has many practical applications in fields such as computer graphics, robotics, and physics. It is used to simulate 3D rotations of objects, control the movement of robots, and calculate the dynamics of rotating objects.
Euler angles are a set of three rotation angles that describe the orientation of an object in 3D space. Angle rotation about 2 axes is a way to achieve a specific Euler angle orientation by combining two rotations around different axes. This relationship is important in understanding and visualizing 3D rotations in a more intuitive way.