Learners follow steps to convert numbers from Gray code to binary code. They then view steps to change binary values to Gray code numbers.
In this animated and interactive object, learners use a color code to understand the operations of a hydraulic circuit. A brief quiz completes the activity.
In this learning activity you'll build a resistor's color code based on the bands.
In this interactive object, students complete progressively more difficult exercises as a way to improve their ability to recognize resistor color code values.
In this screencast, learners read an explanation of the color code used on schematic diagrams for hydraulic circuits. Circuit examples for each color are shown.
This interactive learning object is designed to help learners memorize the color code used on some hydraulic schematic diagrams. Learners quiz themselves using electronic flashcards.
In this interactive object, learners identify the feelings and values that motivate them and others to take responsibility for improving ethics in the workplace.
In this interactive activity, students read about the colored stripes on a resistor and interpret the placement of those colors to determine the value of four-band resistors.
Students examine how to interpret resistor color code bands to determine resistance values and tolerance ranges. This interactive learning object has audio content and includes exercises.
In this learning activity, you’ll practice connecting to the Team Foundation Service (TFS) and your local code repository to get existing code.
In this learning activity we will discuss breakpoints: what they are and how to use them.
In this learning activity you'll define what a variable is, how they're used in the C# programming language, and how the computer works with variables under the hood.
Explore the AngularJS framework, learn how it’s used to architect, and organize code when building web applications.
Learners use the National Electrical Code to determine the size of a motor overload protection device.
The operation and characteristics of an absolute optical encoder used in automation applications are presented.
In this activity you'll explore how flowchart programs can be converted into pseudocode programming.
The learner will gain an understanding of robot motion control by comprehending the fundamentals of the encoder.