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The first part of which is specific to the sciences that are used in making robots or programming them, such as computer science. The second part represents the branches of science that relate to the field of the robot to be made. This may include sciences such as geology. For example, geology is used when making a robot that studies volcanoes or the terrain and components of the Earth’s interior. Medicine also falls within the fields that intersect with robotics.
Especially with robots that are designed for medical purposes. As for Phone Number Data engineering (specifically electrical and mechanical engineering), its role is to design robot structures and their mechanical and electrical parts. In the end, using technology, a robot is manufactured and programmed, the structure and parts of which are designed to perform a specific role or purpose. In general, the primary and oldest purpose of designing these robots is to rely on them to perform tasks that humans usually do. Of course, there are other goals for designing robots that appeared later, such as performing tasks that humans cannot do or even entertaining them.
However, the primary goal of designing robots remains to imitate human capabilities to perform certain tasks in areas whose number is increasing periodically. In other words, this science undertakes the process of designing, manufacturing and operating robots in the fields that depend on them, and even undertakes other tasks after operation such as improving and developing their systems and capabilities on an ongoing basis. The relationship of Arduino to robotics We can summarize the relationship of the Arduino or Arduino to the field of robotics in that it is used to control robots in general. As for the Arduino itself, it is a small controller that works by a small processor called a microcontroller that can be programmed to perform various functions.
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發表於 2024-2-29 14:55:00