Answer:
C) [tex]S_{atoms}=2.53x10^{23}atoms[/tex]
Explanation:
Hello,
In this case, by means of the Avogadro's number, the number of sulfur atoms are obtained considering that in the aluminium sulfide there are three sulfur moles as shown below:
[tex]S_{atoms}=21.0gAl_2S_3*\frac{1molAl_2S_3}{150gAl_2S_3} *\frac{3molS}{1molAl_2S_3}*\frac{6.022x10^{23}atoms}{1molS} \\\\S_{atoms}=2.53x10^{23}atoms[/tex]
Hence the answer is C)
Best regards.
Answer:
In 21 grams of Al2S3 we have 2.53 *10^23 S atoms (optionB is correct)
Explanation:
Step 1: Data given
Mass of Al2S3 = 21.0 grams
Molar mass of Al2S3 = 150.158 g/mol
Number of Avogadro = 6.022 * 10^23 / moles
Step 2: Calculate moles of Al2S3
Moles Al2S3 = mass Al2S3 / molar mass Al2S3
Moles Al2S3 = 21.0 grams / 150.158 g/mol
Moles Al2S3 = 0.140 moles
Step 3: Calculate moles sulfur
For 1 mol Al2S3 we have 3 moles S
For 0.140 moles Al2S3 we have 3*0.140 = 0.420 moles S
Step 4: Calculate sulfur atoms
Number of sulfur atoms = moles * Number of Avogadro
Number of sulfur atoms = 0.420 moles * 6.022 * 10^23 / moles
Number of sulfur atoms = 2.53 *10^23 S atoms
In 21 grams of Al2S3 we have 2.53 *10^23 S atoms (optionB is correct)
