Learners view animations showing how to change the connections to cause a DC motor to reverse its rotation. A short quiz completes the activity.

The learner will gain an understanding of the modes of axis movement for successful robot programming.

The learner will view videos showing the movements of each axis of the six-axis robot.

The learner will gain an understanding of how a robot uses welding instructions to perform tasks. This learning activity includes video.

Students view an example of how to convert rotational velocity to linear velocity. They then work practice problems.

The learner will identify components of a welding robot and determine if the robot is set up correctly to avoid singularity.

Robotic welding is an increasingly popular tool used in industrial welding applications. Knowing how to program the robot is key. Explore how to improve your programming skills by using if-then-else, calls and unconditional jumps in this learning activity.

The learner will learn the programming steps that are used to create circular motions with robots.

Robotic welding is an increasingly popular tool used in industrial welding applications. Knowing how to program the robot is key. Explore how to improve your programming skills by using calls and unconditional jumps in this learning activity.

In this animated object, learners study the rotation of the magnetic stator field of an AC motor and how it interacts with the armature to cause rotation. A short quiz completes the activity.

Robotic welding is an increasingly popular tool used in industrial welding applications. Knowing how to program the robot is key. Explore how to improve your programming skills by using if-then-else, calls, unconditional jumps, and counters in this learning activity.

In this animated object, learners examine how the rotation of an induction AC motor's armature slips behind the synchronous rotational speed of the stator's field to create magnetic fields. These fields interact and produce torque. A quiz completes the activity.

You’ll explore how to use Touch Sensing to do a one directional search with a Fanuc Robot and offset of the robot’s programmed path.

We’ll explore touch sense fundamentals, touch sense commands, and break down a touch sense program.

The learner will identify the types of motion instructions used for programming a robot.

In this animated object, learners examine the operation of a robot using the integral control mode to overcome a steady state.

The learner will gain an understanding of robot motion control by comprehending the fundamentals of the encoder.

Robotic welding is revolutionizing welder safety, efficiency, and technique. Knowing how to program a robotic welder is key in this ever-changing industry. In this module you’ll explore what Through-Arc Seam Tracking (TAST) is, discover how it works, and see it applied on the job.

Robotic welding allows welders to create more consistent and higher quality welds. But, it requires you to understand the terminology associated with its programs. Watch this module to review terminology associated with robotic arc welding and the weaving process.

In this animated object, learners study how the internal parts of an AC synchronous motor interact with magnetic fields to cause rotation. A short quiz completes the activity.

In this animated object, learners study the operation of a ladder circuit that controls the rotational direction of a DC motor.