When you say Base64, some would think of RFC 4648. If YouTube is using RFC 4648, then it's a 12-digit number where they're omitting the last digit because it is always '=', the padding character (the 65th element of the base64 alphabet). The 12 digits represent three blocks of four digits, and four digits yield 24 bits of information. YouTube video IDs would therefore be 64-bit, not 66-bit, if they're using the standard.
Those 64 bits might be representing an unsigned integer. YouTube used MySQL and then sharded MySQL through Vitess, so you could imagine them using an UNSIGNED BIGINT key internally that they encode via RFC 4648-compliant Base64 externally.
Clearly Tom Scott thinks YouTube is squeezing 66 bits out of their 11 characters; his video says so.
If he's wrong, then their frontend might allow you to specify four distinct video IDs for the same video. Those two extra bits' values do not affect the UNSIGNED BIGINT. Which two bits they are depend on endianness and other choices of encoding.
Regardless of whether YouTube is using standard or nonstandard encoding, they can represent 18446744073709551615 in 11 characters (since the padding character is always there and and thus omitted for a 64-bit quantity).
Perhaps they use something like the following to compute a pseudorandom 64-bit integer when a new video is created:
array = bytearray(random.getrandbits(8) for x in range(64 // 8))
b = base64.urlsafe_b64encode(bytes(array))