In this learning activity you'll explore a step-by-step process to solve simple free-body diagrams. They identify forces acting in the x or y direction in interactive exercises.
In this module, we’ll explore what an affinity diagram is, discuss how it can be used to solve problems, and end with some real-world applications to show you how these can help you in any manufacturing role to bring order to chaos.
In this interactive object, learners examine the locations of major body cavities and their protective membranes. A drag-and-drop exercise completes the activity.
Mandarin Chinese Vocabulary for the Parts of the Human Body
Using 10 views of the male and female body, learners match Mandarin Chinese words to the body parts they identify. After the part has been correctly named, learners click on the Mandarin Chinese term to hear it pronounced. This activity is particularly helpful for health care professionals.
We have studied "Passive Voice" for quite a long time, how much do you know about it? How do you like it? We will study the last themes about "Passive Voice".
Can you guess how prevalent technology use is among children and pre-teens? Is it as high as you think? Higher than you might think? Find out!Source: How EdTech Can Help Improve Declining Student Attention Spans—MagicBox™ Blog. (n.d.). Retrieved May 1, 2021, from https://www.getmagicbox.com/blog/edtech-improve-declining-student-attention-spans/
Learners view a vector diagram for a series RL circuit. Information on the voltage across each component, the total voltage, and the phase angle is included.
Learners view a vector diagram for a series RC circuit and read information concerning the voltage across each component, the total voltage, and the phase angle.
Learners read about the vector diagram for a parallel RL circuit. This animated lesson presents information on current flow through each branch, total current, and phase angle.
Learners read about the vector diagram for a parallel RC circuit. This animated lesson presents information on current flow through each branch, total current, and phase angle.