These are the initials of the days of the week: M = Monday T = Tuesday W = Wednesday T = Thursday F = Friday S = Saterday S = Sunday Neta.
N for november. The sequence starts with march.
T
A monotone increasing sequence {r_n | n>0} is a sequence with: n>m implies r_n >= r_m A monotone decreasing sequence {r_n | n>0} is a sequence with: n>m implies r_n <= r_m A strictly monotone increasing sequence {r_n | n>0} is a sequence with: n>m implies r_n > r_m A strictly monotone decreasing sequence {r_n | n>0} is a sequence with: n>m implies r_n < r_m Theorem. All bounded monotone sequences of real numbers have a unique limit.
The answer to the mysterious sequence "I F Y M" is "E H W J". Each letter in the sequence is shifted forward by one in the alphabet.
tfs
m for march october november december january february
n for November
(frame no * page size) + offset value = physical add where frame value is the value present in the corresponding page number offset value is the last n bits of the logical address page no is the first m-n bits of logical address 2^m is the logical address 2^n is the page size
y
The sequence "jfmamjjasond" represents the first letter of each month. The next letters in the sequence would be "f" for February, "m" for March, "a" for April, and "m" for May. So, the complete sequence would be "jfmamjjasondfmam."
Well, isn't that a happy little sequence of letters you've got there! To continue the pattern, the next letter should be M. Just like adding a touch of color to a painting, each letter in the sequence builds upon the one before it to create a harmonious flow.
G1 to S to G2 to M to C