Input
output
they most common place is a factory.
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.
3 meters
To find the mechanical advantage of a simple machine divide output force by input force. (input force is the force that we exert on a machine, and output force is the force that is exerted by a machine).
distance over which the force is applied ________________________________ Distance over which the load was moved or MA= Effort Force _________ Load force OR MA= Length of Load arm ____________________X Weight/mass Length of Effort arm
Output devices are devices which shows us what the computer is processing. Without an output device the computer would do lots of processing but we can't see the results. So yes a robotic arm is an output device.
when the input arm is smaller than the output arm.
The MA would be 6cm because the formula to find the MA is input arm divided by output arm
Yes
The end of a lever that carries the load is the output arm instead of the input arm which is the end of a lever that force is applied to move the load.
3
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.
Plotters. Any kind of physical movement, like a robotic arm is a form of output, so mechanical things connected to and controlled by computers can be considered as output devices. A modem is both an input and output device.
Robotic Arm Edge is recommeded for ages 12+
1.25
The number of motors in a robotic device is dependent upon the functionality of the robotic device. A simple robotic arm that acts as a sorting device on a conveyor may only need a pneumatic piston and as such would require no "motor". As a robotic device becomes more complex, the requirements for other actuators will increase. To design a robot will take some time and thought. Only the designer can decide how many motors will be required.
First, you must be capable of distinguishing the real world from the world of fantasy and make-believe. The robots that you see at the movies are not real. They don't exist except in the world of make-believe. Second, if you want to build a robot, decide what you want it to do. If you wan a robotic arm that opens a door whenever something approaches, determine the type of sensor you want to use, run the output to the appropriate relay, SCR or other switching device, connect that output to a hydraulic, pneumatic or electromagnetic actuator, then connect the actuator to the arm, making certain that the arm is attached appropriately. Once you have that completed, you have a robotic door opener. When the sensor detects the presence of an object, it sends a signal to the relay, SCR or other switching device, the output activates the actuator, the actuator moves the arm and the arm opens the door. It's magic... or robotics.