Please continue ,never stop.i want to know how everything we never cared to know but take it for granted works on the principles of physics and mathematics.
I would love to see the difference between lithium-ion batteries and lithium iron phosphate batteries. A lot of modern power stations and "solar generators" use LFP batteries because they're safer than lithium-ion.
Wikipedia: "The work at Sony on further improvements to Goodenough's invention was led by Akira Yoshino, who had developed a scaled up design of the battery and manufacturing process." - Yoshino scaled up design of the battery and manufacturing process, credit him for that. Denying John B. Goodenough its invention is sloppy. Failure to distinguish between the two most popular chemistries of Li-Ion batteries i.e. LiFePo4 (lithium iron phosphate) and NMC (Nickel manganese cobalt oxide) is a big miss as well because NMC batteries are famous for turning their devices into inextinguishable blowtorches, because their electrolyte supplies oxygen internally during thermal runaway. LiFePo4, while slightly less energy dense, does not have this absolutely massive (criminally negligent from a consumer safety standpoint) drawback.
Well, I think I can. But in short, electric potential difference is a reason for electric current, and elecctric current is a consequence of defference in electric potential
Please continue ,never stop.i want to know how everything we never cared to know but take it for granted works on the principles of physics and mathematics.
I would love to see the difference between lithium-ion batteries and lithium iron phosphate batteries. A lot of modern power stations and "solar generators" use LFP batteries because they're safer than lithium-ion.
Wikipedia: "The work at Sony on further improvements to Goodenough's invention was led by Akira Yoshino, who had developed a scaled up design of the battery and manufacturing process." - Yoshino scaled up design of the battery and manufacturing process, credit him for that. Denying John B. Goodenough its invention is sloppy. Failure to distinguish between the two most popular chemistries of Li-Ion batteries i.e. LiFePo4 (lithium iron phosphate) and NMC (Nickel manganese cobalt oxide) is a big miss as well because NMC batteries are famous for turning their devices into inextinguishable blowtorches, because their electrolyte supplies oxygen internally during thermal runaway. LiFePo4, while slightly less energy dense, does not have this absolutely massive (criminally negligent from a consumer safety standpoint) drawback.
Make the video on the other batteries, please.
Can you do detailed on video on difference between electric potential and electric current and how they differ?
Well, I think I can. But in short, electric potential difference is a reason for electric current, and elecctric current is a consequence of defference in electric potential
There are plenty of videos on youtube that teach about voltage and current.
you sound like tts