“Electrolysis” is an interactive app for students to learn about electrolysis, electrolysis chemistry, the electrolysis of water, and the process of hydrogen electrolysis in an easy and engaging manner through simulations and videos. It is one of the finest educational applications designed to facilitate students’ understanding of these concepts using innovative learning methods. This app caters to students aged 11 - 15 years and is optimized for use on both Android and iOS tablets. The “Electrolysis” app is user-friendly and easy to navigate. Download the app NOW and assist your children in comprehending electrolysis, electrolysis chemistry, the electrolysis of water, and the process of hydrogen electrolysis with ease.
The “Electrolysis” app empowers students to explore everything related to electrolysis using an innovative learning approach. It provides clear explanations about electrolysis, including its chemistry, the electrolysis of water, and the process of hydrogen electrolysis, through interesting Do-It-Yourself (DIY) activities. The interactive nature of the app enhances the learning experience for students. Based on the principles of electrolysis and the concept of electrolysis of water, students can engage in interactive activities and view simulations and videos for better understanding. These engaging visuals and interactive features make learning about these topics enjoyable and straightforward.
App Features:
Learn: Understand the process of electrolysis in the easiest possible way.
Practice: Participate in interactive activities to reinforce your understanding.
Quiz: Test your knowledge with challenging quiz sections.
This educational application provides an engrossing way for students to grasp the intricacies of electrolysis, its chemistry, the electrolysis of water, and the process of hydrogen electrolysis.
Download the “Electrolysis” app and explore other educational apps published by Ajax Media Tech. With its interactive educational model, students can absorb and retain fundamental concepts with minimal effort and maximum retention.
Aktualisiert am
22.05.2024