[tex]\underline{\underline{\large{\green{\cal{✒GIVEN:}}}}}[/tex]
[tex]\bullet \: \rm{3.5 g AL(NO3)3}[/tex]
[tex]\underline{\underline{\large{\green{\cal{REQUIRED:}}}}}[/tex]
Find the mole of 3.5 g AL(NO3)3.
[tex]\underline{\underline{\large{\green{\cal{SOLUTION:}}}}}[/tex]
The formula for calculating the [tex]\tt{\purple{mole \: of \: the \: compound}}[/tex] is expressed as:
[tex]\large{\boxed{\bm{\red{ mole= \dfrac{Mass}{Molar \: mass}}}}}[/tex]
Determine the molar mass of Al(NO3)3:
[tex]\tt{molar \: mass=27+3(14)+3(3×16)}[/tex]
[tex]\tt{molar \: mass=27+42+3(48)}[/tex]
[tex]\tt{molar \: mass=69+144}[/tex]
[tex]\tt{molar \: mass=213gmol^{−1}}[/tex]
Determine the required moles of Al(NO3)3, using the formula:
[tex]\tt{mole = \dfrac{3.5g}{213 {gmol}^{ - 1} } }[/tex]
[tex]\large{\tt{\purple{mole \approx 0.015 \: mol}}}[/tex]
Final Answer:
Hence, the mole of 3.5 g AL(NO3)3 [tex]\large{\rm{\purple{0.015 \: mol}}}[/tex]
