The empirical rule (or the 68-95-99.7 rule) tells us that
EMPIRICAL\%
of the ANIMALS will have lifespans within
abs( Z ) standard deviation of the average lifespan.
The empirical rule (or the 68-95-99.7 rule) tells us that
EMPIRICAL\%
of the ANIMALS will have lifespans within
abs( Z ) standard deviations of the average lifespan.
The reaction is \blue{GIVEN_RATIO}GIVEN
+ R2_RATIOR2 \rightarrow
\red{P1_RATIO}P1
+ P2_RATIOP2.
The coefficients in front of each molecule tell us in what ratios the molecules react. In this case
cardinalThrough20(GIVEN_RATIO) GIVEN for every
cardinalThrough20(P1_RATIO) P1 molecule.
The reaction is \blue{GIVEN_RATIO}GIVEN
+ R2_RATIOR2 \rightarrow
\red{P1_RATIO}P1
+ P2_RATIOP2.
The coefficients in front of each molecule tell us in what ratios the molecules react. In this case
cardinalThrough20(GIVEN_RATIO) GIVEN for every
cardinalThrough20(P1_RATIO) P1 molecules.
He will have ITEMS_LEFT item(1) left over.
He will have ITEMS_LEFT plural_form(item(1), ITEMS_LEFT) left over.
He will have ITEMS_LEFT item(1) left over.
He will have ITEMS_LEFT plural_form(item(1), ITEMS_LEFT) left over.
The length is S UNIT_TEXT and the width is S UNIT_TEXT.
The length is S AMBIGUOUS_PLURAL(UNIT_TEXT, S) and the width is S AMBIGUOUS_PLURAL(UNIT_TEXT, S).
One side of a square is S
UNIT_TEXT long. What is its area?
One side of a square is S
AMBIGUOUS_PLURAL(UNIT_TEXT, S) long. What is its area?