What are the hazards associated with lithium-ion batteries, and how can these turn into safety risks? Last week Risk Bites looked at the bottom-line risk challenges of lithium-ion batteries. This week we take a closer look at the technology behind the batteries used in cell phones, laptops and the
"The customer must lose the fear of not being able to load" (Thomas Ulbrich). The Volkswagen Charging Day in Berlin is all about fast-charging stations, wall boxes and other ways of charging electric cars. --- Further information can be found on our Newsroom: https://www.volkswagen-newsroom.com/e
Learn the basics about testing for negative ions. Which methods and techniques are used to test negative ions? Find out more in this video! This Open Educational Resource is free of charge, under a Creative Commons License: Attribution-NonCommercial CC BY-NC ( View License Deed: http://creativecomm
What are the hazards associated with lithium-ion batteries, and how can these turn into safety risks? As Boeing grapples with lithium-ion battery safety issues in their 787 Dreamliner, Risk Bites looks at the risk science behind these batteries that are increasingly ubiquitous in cell phones, lap
Rutherford's atomic model can already explain a simple formation of charged particles (ions). The PSE can help us detect whether an atom absorbs or releases electrons. Original: "Wolfgang Dukorn" Original: German. All translations in this video have been done by the alugha AI.
The reaction of a metal at the top of the redox series (zinc) with a metal ion at the bottom of the redox series (copper ions) is represented at the particle level. Original: "Wolfgang Dukorn" Original: German. All translations in this video have been done by the alugha AI.
Reactions - basics, charge, electrophiles, nucleophiles explained simply - organic chemistry. In reactions, you consider which molecules are to react with each other. If there is a positively charged atom or a positive charge, there is an electron deficiency. The deficiency can be balanced by an ele
Learn the basics about Testing for positive ions - part 2. Find out more in this video! This video is part of 'Chemistry for All' - a Chemistry Education project by our Charity Fuse Foundation - the organisation behind The Fuse School. These videos can be used in a flipped classroom model or as a
Current from the socket generates a magnetic field. This in turn induces current. As a result, the battery (in a smartphone, for example) can be charged via this magnetic field. This technology originated in the early 19th century. Author: ZDF/Terra X/Sabine Kemper/Martin Schaaf/Maximilian Mohr Tr
Please view our new version of this video here: https://youtu.be/VXy-IoRykWk Smartphone, cordless screwdriver, laptops and defibrillators: Everyone knows the lithium-ion battery - or the Li-Ion Battery - for energy storage in a variety of modern appliances. A great future for the battery is predict
In this screencast, the practical procedure for the ion lotto at our school is explained. Original: "Wolfgang Dukorn" Original: German. All translations in this video have been done by the alugha AI.
Today, we're taking a closer look at the ABSINA type 2 charging cable so that we don't run out of juice on the road. Technical data: Charging power: max. 11 kW Ingress protection: IP55 Output current: 16 A Number of phases: 3-phase High voltage resistance: 2600 V AC Operating temperature: -40 °C .
