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2 years ago

The 54.9-g sample of the compound X2O7 contains 33.6 g of oxygen atoms. What is the molar mass of element X?

Chemistry

2 answers:

vazorg [7]2 years ago

7 0

Mass of X₂O₇ = 54,9g

2x + 33,6g = 54,9g
2x = 54,9g - 33,6g
2x = 21,3g | :2
x = 10,65g/mol

sesenic [268]2 years ago

7 0

Answer: The molar mass of element X is 35.5 g/mol

Explanation:

We are given:

A chemical compound having formula $X_2O_7$

1 mole of this compound contains 2 moles of element X and 7 moles of oxygen

Mass of oxygen atoms = 33.6 grams

Mass of sample = 54.9 g

Mass of X atoms = (54.9 - 33.6)g = 21.3 g

We know that:

Molar mass of oxygen = 16 g/mol

To calculate the molar mass of element X, we use unitary method:

33.6 g of oxygen combines with 21.3 g of element X.

So, $(7\times 16)=112g$ of oxygen atom will combine with $\frac{21.3}{33.6}\times 112=71g$ of element X

From the given formula, 2 moles of element X are present.

So, molar mass of element X = $\frac{\text{Total mass of X}}{\text{Number of atoms in the compound}}=\frac{71g}{2mol}=35.5g/mol$

Hence, the molar mass of element X is 35.5 g/mol

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2 years ago

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Answer:

pH of buffer =4.75

Explanation:

The pH of buffer solution is calculated using Henderson Hassalbalch's equation:

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7 0

2 years ago

A sample of 1.000 g of a compound containing carbon and hydrogen reacts with oxygen at elevated temperature to yield 0.692 g H₂O

ollegr [7]

Answer :

(a) 1.000 g of compound containing carbon and hydrogen is, 0.922 g and 0.0769 g respectively.

(b) There is no other element present in the compound.

Explanation :

(a) Now we have to determine the masses of C and H in the sample.

The chemical equation for the combustion of hydrocarbon having carbon, hydrogen and oxygen follows:

$C_xH_y+O_2\rightarrow CO_2+H_2O$

where, 'x' and 'y' are the subscripts of Carbon and hydrogen respectively.

We are given:

Mass of $CO_2=3.381g$

Mass of $H_2O=0.692g$

We know that:

Molar mass of carbon dioxide = 44 g/mol

Molar mass of water = 18 g/mol

For calculating the mass of carbon:

In 44 g of carbon dioxide, 12 g of carbon is contained.

So, in 3.381 g of carbon dioxide, $\frac{12}{44}\times 3.381=0.922g$ of carbon will be contained.

For calculating the mass of hydrogen:

In 18 g of water, 2 g of hydrogen is contained.

So, in 0.692 g of water, $\frac{2}{18}\times 0.692=0.0769g$ of hydrogen will be contained.

Thus, 1.000 g of compound containing carbon and hydrogen is, 0.922 g and 0.0769 g respectively.

(b) Now we have to determine the compound contain any other elements or not.

Mass carbon + Mass of hydrogen = 0.922 g + 0.0769 g = 0.999 g ≈ 1 g

This means that there is no other element present in the compound.

3 0

2 years ago

Calculate the molarity of each of the following

Alenkasestr [34]

Answer:

a. 1.21M

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c. 0.00496M

Explanation:

Molarity, M, is an unit of concentration defined as the ratio between moles of solute and liters of solution:

a. 4.35 mol LiCl / 3.60L = 1.21M

b. 29.43gC6H12O6 * (1mol / 180.16g) = 0.1634moles / 1.37L = 0.119M

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8 0

2 years ago

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Setler79 [48]

Answer:

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