null == undefined does indeed evaluate to true, but
null === undefined evaluates to false.
null == undefined, this means that the
null is converted to an undefined variable before the comparison is done, hence the equality.
We can demonstrate the same effect with strings and integers:
"12" == 12 is true, but
"12" === 12 is false.
This example gives us an easier way to discuss your next point, about adding one to each of them. In the example above, adding 1 to the integer obviously gives
13, but with the string
"12" + 1 gives us a string
"121". This makes perfect sense, and you wouldn't want it any other way, but with a double-equal operator, the original two values were reported as equal.
The lesson here is to always use the triple-equal operator in preference to the double-equal, unless you have a specific need to compare variables of different types.
Your final point demonstrates the fickle nature of
false, because it doesn't work that way. The built-in
infinity value can behave in a similarly bizarre way, and for similar reasons.
undefined (did you know it's actually possible to redefine the value of the built-in
undefined object?!), and most of them come with an explanation as to what's actually happening and why. It might be helpful in showing you why things work the way they do, and will definitely helpful in showing you things to avoid! And if nothing else, it makes for a good entertaining read to see some of the abuses people have tried throwing at the poor language.