Question #a2e9d

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Question #a2e9d

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Answer 1 · 2017-01-28T23:30:56

${1.3 g mL}^{- 1}$ $"1.3 g mL"^(-1)$

Explanation:

In order to be able to calculate the density of the liquid, you must know two things

the mass of the sample used to fill the flask

the volume this sample occupies

The problem provides you with the volume of the liquid

$V = 6.98 mL$ $V = "6.98 mL"$

so all you have to do now is figure out the mass of this sample. You know that you have

$m_{liquid} + m_{flask} = 185.4 g$ $m_"liquid" + m_"flask" = "185.4 g"$

and that the mass of the empty flask is equal to

$m_{flask} = 176.5 g$ $m_"flask" = "176.5 g"$

This means that you can get the mass of the liquid by subtracting the mass of the empty flask from the mass of the flask + liquid.

$m_"liquid" = color(red)(cancel(color(black)(m_"flask"))) + m_"liquid" - color(red)(cancel(color(black)(m_"flask")))$

$m_"liquid" = "185.4 g" - "176.5 g" = "8.9 g"$

The density of the liquid, $rho$ , is equal to the mass of exactly one unit of volume of this liquid, so divide the total mass of the sample by its total volume to get

$rho = "8.9 g"/"6.98 mL" = color(darkgreen)(ul(color(black)("1.3 g mL"^(-1))))$

The answer will have two sig figs because the mass of the liquid has two sig figs.

$"185.4 g" - "176.5 g" = "8.9 g" ->$ one decimal place of precision, two sig figs

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