Chemistry, asked by prathameshwankhede0, 8 months ago

1 gram of MCO3 is dissolved in 500 ml of 0.1 molar strong acid solution. The excess acid (unreacted) exactly requires 300 ml of 0.1 molar NaOH solution for complete neutralization. Calculate the atomic weight of metal 'M'​

Answers

Answered by biswa75
0

Explanation:

You can do it like this:

Explanation:

Sodium carbonate reacts with hydrochloric acid:

N

a

2

C

O

3

(

s

)

+

2

H

C

l

(

a

q

)

2

N

a

C

l

(

a

q

)

+

C

O

2

(

g

)

+

H

2

O

(

l

)

We can find the number of moles of

HCl

before the reaction.

We then use the titration result to find the number of moles remaining after the reaction.

By subtracting the two we can get the number of moles of

HCl

which have reacted.

From the equation we can find the number of moles of

Na

2

CO

3

.

From this we get the mass of

Na

2

CO

3

.

We can then work out the percentage purity.

Concentration = moles of solute / volume of solution.

c

=

n

v

n

=

c

×

v

Initial moles of

H

C

l

=

0.1280

×

50.00

1000

=

6.400

×

10

3

The acid remaining is titrated with

NaOH

:

H

C

l

(

a

q

)

+

N

a

O

H

(

a

q

)

N

a

C

l

(

a

q

)

+

H

2

O

(

l

)

n

O

H

=

0.1220

×

30.10

1000

=

3.6722

×

10

3

Since they react in a 1:1 ratio the no. of moles of

HCl

must be the same:

n

H

C

l

=

3.6722

×

10

3

The no. moles used up:

=

(

6.400

3.6722

)

×

10

3

=

2.7228

×

10

3

From the original equation you can see that the no. moles of

Na

2

CO

3

must be half of this.

n

N

a

2

C

O

3

=

2.7228

×

10

3

2

=

1.3614

×

10

3

M

r

[

N

a

2

C

O

3

]

=

105.99

m

a

s

s

N

a

2

C

O

3

=

1.3614

×

10

3

×

105.99

=

0.14429

g

percentage purity

=

0.14429

0.3240

×

100

=

44.53

%

This technique is known as a "back titration"

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