Pure oxygen gas was first prepared by heating mercury (ii) oxide, hgo: 2hgo(s)→2hg(l)+o2(g) what volume (in l) of oxygen at stp is released by heating 10.36 g of hgo?

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asked Feb 19, 2018 187k views

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Lidor Avitan · Answer 1 · 2018-02-21T07:46:49+0000

Answer:

The volume occupied by the oxygen gas is 0.5353 L.

Step-by-step explanation:

$HgO(s)\rightarrow 2Hg(l)+O_2(g)$

Moles mercury(II) oxide =
(10.36 g)/(216.59 g/mol)0.0478 mol

According to reaction, 2 mol of mercury(II) oxide gives 1 mol of oxygen.

Then 0.0478 mol of mercury(II) oxide will give:

(1)/(2)* 0.0478=0.0239 mol

At STP, the 1 mol gas occupies = 22.4 L

Then 0.0239 mol of oxygen at STP will occupy volume =
0.0239* 22.4 L=0.5353 L

The volume occupied by the oxygen gas is 0.5353 L.

Snurka Bill · Answer 2 · 2018-02-23T19:59:29+0000

Answer: Moles HgO = 10.36 g/ 216.59 g/mol= 0.048 the ratio between HgO and O2 is 2 : 1 moles O2 formed = 0.048/ 2= 0.024 at STP one mole of any gas occupies 22.4 L Volume O2 = 0.024 x 22.4 L/mol = 0.54 L

Pure oxygen gas was first prepared by heating mercury (ii) oxide, hgo: 2hgo(s)→2hg(l)+o2(g) what volume (in l) of oxygen at stp is released by heating 10.36 g of hgo?

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