Question

A carbon compound contains 12.8% carbon, 2.1% hydrogen, 85.1% bromine. The molecular weight of the
compound is 187.9. Calculate the molecular formulaBalance the following redox reactions by ion–electron method:
a) 2
4 2 4 MnO aq SO g Mn aq HSO aq in acidic medium 4M​

Answer 1

Answer:

A carbon compound contains 12.8% of carbon, 2.1% of hydrogen and 85.1% of bromine. The molecular weight of the compound is 187.9. What is the molecular formula of the compound? (Atomic weight: H = 1.008, C = 12.0, Br = 79.9)

Explanation:

As always with these problems, it is useful to assume

100

⋅

g

of unknown compound....and thus find an empirical formula...

Moles of carbon

=

12.8

⋅

g

12.011

⋅

g

⋅

m

o

l

−

1

=

1.066

⋅

m

o

l

.

Moles of hydrogen

=

2.1

⋅

g

1.00794

⋅

g

⋅

m

o

l

−

1

=

2.084

⋅

m

o

l

.

Moles of bromine

=

85.1

⋅

g

79.90

⋅

g

⋅

m

o

l

−

1

=

1.066

⋅

m

o

l

.

And we divide thru by the LOWEST molar quantity to give an empirical formula of.....

C

H

2

B

r

But we gots a molecular mass, and we know that the molecular formula is a whole number multiple of the empirical formula.

And so

187.9

⋅

g

⋅

m

o

l

−

1

=

n

×

(

12.011

+

2

×

1.00794

+

79.9

)

⋅

g

⋅

m

o

l

−

1

And thus

n

=

2

, and the molecular formula is

C

2

H

4

B

r

2

...

I prefer questions that quote actual microanalytical data.

C

2

H

4

B

r

2

is a liquid, and you would rarely be able to get combustion data on a liquid (the analyst would probably laugh at you!)......

.

.

.

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