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3 years ago

2 upper N upper o upper c l double-headed arrow 2 upper N upper O (g) plus upper C l subscript 2 (g).

Chemistry

1 answer:

Ne4ueva [31]3 years ago

5 0

Answer:

1.6x10^–5

Explanation:

Step 1:

The balanced equation for the reaction.

This is illustrated below:

2NOCl <=> 2NO + Cl2

Step 2:

Data obtained from the question.

[NOCl] = 1.4x10^–2 M

[NO] = 1.2x10^–3 M

[Cl2] = 2.2x10^–3 M

Equilibrium constant, K =?

Step 3:

Determination of the equilibrium constant.

The equilibrium constant for the above equation can be written as:

K = [NO]^2 [Cl2] / [NOCl]^2

Inputing the values of the [NO], [Cl2] and [NOCl], the equilibrium constant is:

K = [NO]^2 [Cl2] / [NOCl]^2

K = (1.2x10^–3)^2 x (2.2x10^–3) / (1.4x10^–2)^2

K = 1.6x10^–5

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How many moles of FeCI3 are present in 345.0 g FeCI3

Sphinxa [80]

Answer:

$\boxed {\boxed {\sf About \ 2.127 \ moles \ of \ FeCl_3}}$

Explanation:

To convert from moles to grams, the molar mass must be used.

1. Find Molar Mass

The compound is iron (III) chloride: FeCl₃

First, find the molar masses of the individual elements in the compound: iron (Fe) and chlorine (Cl).

Fe: 55.84 g/mol

Cl: 35.45 g/mol

There are 3 atoms of chlorine, denoted by the subscript after Cl. Multiply the molar mass of chlorine by 3 and add iron's molar mass.

FeCl₃: 3(35.45 g/mol)+(55.84 g/mol)=162.19 g/mol

This number tells us the grams of FeCl₃ in 1 mole.

2. Calculate Moles

Use the number as a ratio.

$\frac{162.19 \ g \ FeCl_3}{1 \ mol \ FeCl_3}$

Multiply by the given number of grams, 345.0.

$345.0 \ g \ FeCl_3 *\frac{162.19 \ g \ FeCl_3}{1 \ mol \ FeCl_3}$

Flip the fraction so the grams of FeCl₃ will cancel.

$345.0 \ g \ FeCl_3 *\frac{1 \ mol \ FeCl_3}{162.19 \ g \ FeCl_3}$

$345.0 *\frac{1 \ mol \ FeCl_3}{162.19 }$

$\frac{345.0 \ mol \ FeCl_3}{162.19 }$

Divide.

$2.12713484 \ mol \ FeCl_3$

3. Round

The original measurement of grams, 345.0, has 4 significant figures. We must round our answer to 4 sig figs.

For the answer we calculated, that is the thousandth place.

The 1 in the ten thousandth place tells us to leave the 7 in the thousandth place.

$\approx 2.127 \ mol \ FeCl_3$

There are about <u>2.127 mole</u>s of iron (III) chloride in 345.0 grams.

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How many grams of H,O are needed to produce 13 g of NaOH? 2 Na,O2 + 2 H20-4 NaOH + O2

fgiga [73]

Answer:

This is a typical stoichiometry question.To answer this question you want to get a relationship between

O and NaOH.

So you can get a relationship between the moles of

and moles of NaOH by the concept of stoichiometry.

O +

O ----------------> 2 NaOH.

According to above balanced equation we can have the stoichiometry relationship between

O and NaOH. as 1:2

It means 1 moles of

O is required to react with one mol of

O to produce 2 moles of NaOH.

in terms of mass 1 mole of

O has mass 62 g on reaction with water produces 2 moles of NaOH or 80 g of NaOH.

62 g of

O produces 80 g of NaOH.

1g of NaOH is produced from 62/80 g of

1.6 x

g of NaOH will require 62 x 1.6 x

g / 80 of

124g of

Explanation:

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3 years ago