It's not Apple's responsibility to not break laws with a device. That's all on the end user. They just know someone would sue them over it because they have deep pockets.
Everything in math builds on previous steps and concepts. You'll still have to learn it and understand how it applies to the next thing you'll need to learn. Changing the names won't fix anything except what you call it.
Oh, I know. I didn't want to get too deep into it with trying to cover different hashes, rainbow tables, salts, etc... This is probably a marketing infographic. Simplicity, colors, and ambiguity aside, the basic concept is still sound. Use longer passwords(and don't reuse them between sites).
Or you know, they could go back to how multiplayer games originally ran with one player as the host and all those third party server problems go away. Way too many games are now dead because the games rely on those third party servers that cost money to keep running.
Oh nooooo! I've missed all the drama. For shame I am missing out on such high quality people having monumental issues that need airing on the internet! Wait, I missed it all and saved myself countless hours of time. Moving on!
Well, six characters of upper/lower/numeric is what they claim hackers can break in one second. That's 139.3 billion combination attempts per second, The 10 character password with only numbers is only 282 million. That's about 494 times weaker. At the same password attempt rate that's just 0.002 seconds. An 11 character password of the same complexity which is what you're referring to is over 1.9 billion times tougher than the six character alphanumeric, so...41 years in the chart is what your password would be rated. Once you're past 20 years it's generally considered reasonably safe. Also, the color coding on this chart is a mess. If 2k years is green, why is 16k years yellow on the next row?
Use longer passwords(and don't reuse them between sites).
Way too many games are now dead because the games rely on those third party servers that cost money to keep running.
Wait, I missed it all and saved myself countless hours of time. Moving on!
An 11 character password of the same complexity which is what you're referring to is over 1.9 billion times tougher than the six character alphanumeric, so...41 years in the chart is what your password would be rated. Once you're past 20 years it's generally considered reasonably safe.
Also, the color coding on this chart is a mess. If 2k years is green, why is 16k years yellow on the next row?