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@@ -82,10 +82,8 @@ Some radices fall into certain classes that indicate they have many useful facto - Colossally Abundant :: Pick a positive number e, and adjust the FUS for size by dividing each FUS by the radix to the power of e. Then, one number will have the best adjusted FUS out of all possible radices (the ultimate winner is different for different values of e). These numbers are called colossally abundant numbers, and they can be seen as the best radices (in terms of factors). ** Multiplication Table Complexity The MTC is an estimate of how difficult it is to learn a radix's multiplication table. Every row except 0, 1 and the last one (which have their own patterns) is assigned a difficulty equal to the length of the pattern in its last digit, and these difficulties are summed to get the overall MTC. -** Natural Logarithm -The radix's natural logarithm indicates its information density - how much information it can fit into a digit. Radices with higher logarithms will be able to count higher with fewer digits, and approximations will be more accurate for the same number of decimal places. - -Specifically, numbers in radix a will have ln(b)/ln(a) times as many digits as numbers in radix b. For example, ln(20)/ln(10)≈1.30, so decimal numbers will have around 30% more digits than vigesimal numbers. +** Base-2 Logarithm +The radix's base-2 logarithm indicates its information density - how much information it can fit into a digit. Radices with higher logarithms will be able to count higher with fewer digits, and approximations will be more accurate for the same number of decimal places. Specifically, one digit in radix n is equivalent to log_2(n) bits (base-2 digits). ** Copyright & Contact Info radix_info: gives some information about number radices Copyright (C) 2023 Adrien Hopkins |