The moles of vapor released is 0.357 mol/H2O
The molar mass of the salt is the same as that of water times the moles of H2O
<h3>mgso4·7h2o</h3>
This is also the same as:
Molar mass of (MgSO₄) + 7 * molar mass of (H₂O)
Molar mass of (MgSO₄) = 168g/mol
molar mass of (H₂O) = 18 g/mol
mgso4·7h2o = 168 +7*18
= 168+126
= 294g/mol
<h3>15.5 mols of mgso4·7h2o</h3>
![15.5*\frac{126}{294} *\frac{1}{18}](https://tex.z-dn.net/?f=15.5%2A%5Cfrac%7B126%7D%7B294%7D%20%2A%5Cfrac%7B1%7D%7B18%7D)
= 0.357
The moles of vapor released is 0.357 mol/H2O
Read more on molar mass here: brainly.com/question/15476873
Answer:
<em><u>A wet spring leads to an increase in the frog population. ..</u></em>
Explanation:
<em>hope</em><em> it</em><em> will</em><em> help</em><em> you</em><em> have</em><em> a</em><em> great</em><em> day</em><em> bye</em>
I think it’s D, please don’t be mad if it’s wrong
Every demand and supply curve is founded on the ceteris paribus supposition that everything else is held constant. A diagram that plots the amount demanded along the horizontal axis and the price along the vertical axis to show the relationship between the two. Thus, option C is correct.
<h3>What supply curve is based on the ceteris paribus?</h3>
A demand curve will be impacted by the ceteris paribus assumption, since it considers elasticity. If a good's price rises while all other variables remain the same, the demand for that good will decline.
Therefore, Due to the fact that most people won't be able or willing to spend more money than they have,
Learn more about ceteris paribus here:
brainly.com/question/13864080
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