1948, by George Devol and Joe Engelberger.
Sources:
http://inventors.about.com/od/roboticsrobots/a/RoboTimeline.htm
The time it takes to build a robotic arm can vary significantly depending on factors such as complexity, materials, and the builder's expertise. For a simple DIY robotic arm, it might take a few days to a couple of weeks. In contrast, developing a sophisticated robotic arm for industrial or research purposes can take several months or even years, involving extensive design, prototyping, and testing phases.
they most common place is a factory.
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A standard robotic arm will consists of seven metal segments and six appendages, which includes a 'shoulder', 'elbow' and 'wrist'. It has six degrees of freedom corresponding to the three appendages.
The purpose of a robotic arm is to automate tasks that require precision, strength, and repeatability, often in industrial or manufacturing settings. These robotic arms can perform a variety of functions, such as assembling parts, welding, painting, and material handling. They enhance efficiency, reduce human error, and can operate in hazardous environments where human intervention would be risky. Additionally, robotic arms are increasingly used in fields like healthcare and research for surgical assistance and experimentation.
A company called 'Festo'
Robotic arms are often called prosthetic arms if they are on a person. If it is a robotic arm on a machine, then it is called a robotic arm.
Robotic Arm Edge is recommeded for ages 12+
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The degree of freedom (DOF) of a robotic arm can be computed based on the number of the joints and types of the joints. For most robotic arm, the joint is either prismatic or revolute(about one axis), the DOF is simply the total number of the joints.
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A major application of the robotic arm in heavy industry is the ability to lift a significant amount of weight that is far greater than the human capacity.
The time it takes to build a robotic arm can vary significantly depending on factors such as complexity, materials, and the builder's expertise. For a simple DIY robotic arm, it might take a few days to a couple of weeks. In contrast, developing a sophisticated robotic arm for industrial or research purposes can take several months or even years, involving extensive design, prototyping, and testing phases.
A robotic arm achieves degrees of freedom by having multiple joints that allow it to move in different directions. Each joint adds a degree of freedom, which increases the arm's ability to reach and manipulate objects in various orientations. The more joints a robotic arm has, the more degrees of freedom it can achieve.