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3 years ago

How many moles of H2So4 are in 2.50 L of 4.25 M aqueous solution?

1 answer:

5 0

The formula for molarity is:
M = n/V
or
M = mol/L

All you need to do is substitute the values you are given.
M = 4.25
L = 2.5
n = ?

4.25 = n/2.5
Multiply both sides by 2.5 to isolate n.

10.625 = n

There are 10.6 moles of H2So4 in the aqueous solution.

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Explanation:

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8 0

3 years ago

Pentaborane-9,

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Given question is incomplete. The complete question is as follows.

Pentaborane ( $B_{5}H_{9}$ ) is a colorless highly reactive liquid that will burst into flames when exposed to oxygen.the reaction is:

$2B_{5}H_{9}(l) + 12O_{2} \rightarrow 5B_{2}O_{2}(s) + 9H_{2}O(l)$

Calculate the kilojoules of heat released per gram of the compound reacted with oxygen.the standard enthalpy of formation $B_{5}H_{9}(l)$ , $B_{2}O_{3}(s)$ , and $H_{2}O(l)$ are 73.2, -1271.94, and -285.83 kJ/mol, respectively.

Explanation:

As the given reaction is as follows.

$2B_{5}H_{9}(l) + 12O_{2} \rightarrow 5B_{2}O_{2}(s) + 9H_{2}O(l)$

Therefore, formula to calculate the heat energy released is as follows.

$\Delta H = \sum H_{products} - \Delta H_{reactants}$

Hence, putting the given values into the above formula is as follows.

$\Delta H = \sum H_{products} - \Delta H_{reactants}$

= $5 \times (-1271.94 kJ/mol) + 9 \times (-285.83 kJ/mol) - 2 \times (73.2 kJ/mol) - 12(0)$

= -9078.59 kJ/mol

Since, 2 moles of Pentaborane reacts with oxygen. Therefore, heat of reaction for 2 moles of Pentaborane is calculated as follows.

$\frac{\Delta H}{2 \times \text{molar mass of pentaborane}}$

$\frac{-9078.59 kJ/mol}{2 \times 63.12 g/mol}$

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