Plotted, charted according to popular theorem,
meticulously fretted over,
worked and reworked--confirmed.
Follow the order and find the balance.
But, variables.
Solve for x where x is an unknown.
The question may yet have an answer--
a suitable conclusion to prove the proof,
but has the problem a solution?
At rest, we are simple equations,
rounding ourselves to the nearest whole,
adding fractions of a percentage,
drawing a line and calling the bottom number
-------------------------
TOTAL
But, variables.
1(x), where x is an unknown.
And all the fractions we add
leave us fractured,
divided from the solution, the end sum.
remainders to be rounded off,
estimates of ourselves.
Aug 27, 2013
Aug 27, 2013 at 12:29 PM UTC
Plotted, charted according to popular theorem,
meticulously fretted over,
worked and reworked--confirmed.
Follow the order and find the balance.
But, variables.
Solve for x where x is an unknown.
The question may yet have an answer--
a suitable conclusion to prove the proof,
but has the problem a solution?
At rest, we are simple equations,
rounding ourselves to the nearest whole,
adding fractions of a percentage,
drawing a line and calling the bottom number
-------------------------
TOTAL
But, variables.
1(x), where x is an unknown.
And all the fractions we add
leave us fractured,
divided from the solution, the end sum.
remainders to be rounded off,
estimates of ourselves.
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