Answer:
She should use 0.75 mol.
Explanation:
By definition, molarity (M) is the <u>number of moles of solute per liter of solution</u>. One liter of solution is equal to 1000 mL.
Therefore,
1000 mL -------- 1.5 moles of NaCl
500 mL --------- x= 0.75 moles of NaCl
The moles contained in 500 mL of a 1.5 M NaCl solution are 0.75.
Answer:
B
Explanation:
B is a personal factor of resilience
<u>Answer:</u> Van't Hoff factor, i is <u>less</u> than expected from the formula of the compound and this <u>decreases</u> the effective concentration of particles.
<u>Explanation:</u>
Strong electrolytes are defined as the solutions which completely dissociate into their ions.
But, most of the strong electrolytes do not dissociate completely (act ideally) but remain partially undissociated into the ions. Thus, giving a lesser number of ions in the solution than expected.
This means that the Van't Hoff factor, <em>i</em> which denotes the number of ions is <u>less</u> than expected.
As fewer ions are released in the solution, the concentration of the solution is expected to <u>decrease</u>.
Hence, van't Hoff factor, i is <u>less</u> than expected from the formula of the compound and this <u>decreases</u> the effective concentration of particles.
<span>Ethoxyethane; trifluoroborane; BF3.Et2O; Boron trifluoride ethyl ether; Boron trifluoride diethyl ether; Boron trifluoride-diethyl ether; Boron
</span>
From the given equations, the combustion reaction is;
C₄H₁₂ + 7O₂ --> 4CO₂ + 6H₂O
Combustion reactions are when organic compounds react with O₂ to produce water and CO₂. From the given reactions, C₄H₁₂ is an organic compound that reacts with O₂ to produce water and CO₂.
Therefore this is the only reaction that follows the general equation for combustion.