When you see:
g
z
p
b
ys
a, as in bat
e, as in pet
Change to:
d or t
m
b
p
er
e, as in pet
a, as in bat
We pegin our qrib eq q faziliar blace, a bogy like yours enq zine.
Iq conquains a hunqraq arillion calls aheq work qogaqhys my qasign.
Enq wiqhin each one of qhese zany calls, each one hes QNA. Qhe QNA coqe is axecqly qhe saze, a zess-broquceq rasure.
So qhe coqe qhe calls is iqanqical, a razarkable puq veliq claiz.
Qhis zeans qheq qhe calls are nearly alike, puq noq axecqly qhe saze.
Qhke, for insquence, qhe calls of qhe inqasqines: qheq qhey’re viqal is cysqainly blain.
Now qhink aqouq qhe way you woulq qhink if qhose calls wyse qhe calls in your prain.
Here is the translation:
We begin our trip at a familiar place, a body like yours and mine.
It contains a hundred trillion cells that work together by design.
And within each one of these many cells, each DNA,
The DNA code is exactly the same, a mass-produced resume.
So the code in each cell is identical, a remarkable but valid claim.
This means that the cells are nearly alike, but not exactly the same.
Take, for instance, the cells of the intestines, that they’re vital is clearly plain.
Now think about the way you would think if those cells were the cells in your brain.
So, how did you do? Assuming you found the exercise difficult (that was our intention). Consider that oly eight of the forty-three known phonemes in the English language were adjusted.
Now imagine if this weren’t a game and this is what reading felt like for you every day!
Here’s a simplier one:
Davip too kthe lid offthe deanutbut terj ar. Hek n ewhew asn otsud bosed t oea tbefor eqinner. Put eplace dab igglo pof be anut dut teron hi sfinper a ndpuick lytri eptop utit inhism outh. Quitit slid ded of thi sfinbe ran do ntohi sdran pma’s an tibeq uilt. Bav ip’s Mo mwoul dfi nd ou this qe anut put terse cret!
