Question

0.2 mol of hydrocarbons undergo complete combustion to give 35.2 of carbon dioxide and 14.4g of water as the only product. What is the molecular formula of hydrocarbon

asked May 9, 2022 47.4k views

1 Answer

Ask a Question

Mfit · Answer 1 · 2022-05-14T12:05:04+0000

Answer:

$\rm C_4 H_8$ .

Step-by-step explanation:

Look up the relative atomic mass of
$\rm C$ ,
$\rm H$ , and
$\rm O$ on a modern periodic table:

$\rm C$ :
.
$\rm H$ :
.
$\rm O$ :
.

Calculate the molecular mass of
$\rm CO_2$ and
$\rm H_2O$ :

$M(\mathrm{CO_2}) = 12.011 + 2 * 15.999 = 44.009\; \rm g \cdot mol^(-1)$ ;

$M(\mathrm{H_2O}) = 2 * 1.008 + 15.999 = 18.015\; \rm g \cdot mol^(-1)$ .

Given the mass
of
$\rm CO_2$ and
$\rm H_2O$ produced, calculate the number of moles of molecules that were produced:

$\displaystyle n(\mathrm{CO_2}) = \frac{m(\mathrm{CO_2})}{M(\mathrm{CO_2})} \approx 0.80\; \rm mol$ ;

$\displaystyle n(\mathrm{H_2O}) = \frac{m(\mathrm{H_2O})}{M(\mathrm{H_2O})} \approx 0.80\; \rm mol$ .

Calculate the number of moles of
$\rm C$ atoms and
$\rm H$ atoms in these
$\rm CO_2$ and
$\rm H_2O$ molecules.

Each
$\rm CO_2$ molecule contains one
$\rm C$ atom. Therefore, that
$0.80\; \rm mol$ of
$\rm CO_2\!$ contains
$0.80\; \rm mol\!$ of
$\rm C\!$ atoms.
Each
$\rm H_2O$ molecule contains two
$\rm H$ atoms. Therefore, that
$0.80\; \rm mol$ of
$\rm H_2O\!$ contains
$2 * 0.80\; \rm mol = 1.60\; \rm mol$ of
$\rm H\!$ atoms.

The combustion reaction here include two reactants: the hydrocarbon and
$\rm O_2$ .

As the name suggests, hydrocarbons contain only
$\rm C$ atoms and
$\rm H$ atoms. On the other hand,
$\rm O_2$ contains only
$\rm O$ atoms.

Therefore, all the
$\rm C$ and
$\rm H$ atoms in those
$\rm CO_2$ and
$\rm H_2O$ molecules are from the unknown hydrocarbon. (With a similar logic, all the
$\rm O$ atoms in those combustion products are from
$\rm O_2$ .)

In other words, that
$0.20\; \rm mol$ of this unknown hydrocarbon molecules contains:

$0.80\; \rm mol$ of
$\rm C$ atoms, and
$1.60\; \rm mol$ of
$\rm H$ atoms.

Hence, each of these hydrocarbon molecules would contain
$(0.80\; \rm mol) / (0.20\; \rm mol) = 4$ carbon atoms and
$(1.60\; \rm mol) / (0.20\; \rm mol) = 8$ hydrogen atoms.

The molecular formula of this hydrocarbon would be
$\rm C_(4) H_(8)$ .

0 Comments

Please log in or register to add a comment.

Please log in or register to answer this question.

1 Answer

0 Comments

Please log in or register to add a comment.

Other Questions