# Question #a4afd

Over $200 \cdot g$
Now $\text{density,}$ $\rho = \text{Mass"/"volume}$
And thus $\text{mass"=rhoxx"volume}$, and we also note that $1 \cdot m L \equiv 1 \cdot c {m}^{-} 3$
And so we needs.....$1.1135 \cdot g \cdot \cancel{c {m}^{-} 3} \times 200 \cdot \cancel{m L} \times 1 \cdot \cancel{c {m}^{3} \cdot m {L}^{-} 1} = 227.0 \cdot g$