gambarkan struktur senyawa 3-fenil-2-pentanol

Answer : The mass of aluminum sulfide form from the reaction can be 12.5 grams.
Solution : Given,
Mass of Al = 9.00 g
Mass of S 8 ​ = 8.00 g
Molar mass of Al = 27 g/mole
Molar mass of S 8 ​ = 256 g/mole
Molar mass of A l 2 ​ S 3 ​ = 150.2 g/mole
First we have to calculate the moles of Al and S 8 ​ .
Moles of A l = Molar mass of A l Mass of A l ​ = 27 g / m o l e 9.00 g ​ = 0.333 m o l es
Moles of S 8 ​ = Molar mass of S 8 ​ Mass of S 8 ​ ​ = 256 g / m o l e 8.00 g ​ = 0.0312 m o l es
Now we have to calculate the limiting and excess reagent.
The balanced chemical reaction is,
16 A l ( s ) + 3 S 8 ​ ( s ) → 8 A l 2 ​ S 3 ​ ( s )
From the balanced reaction we conclude that
As, 3 mole of S 8 ​ react with 16 mole of A l
So, 0.0312 moles of S 8 ​ react with 3 0.0312 ​ × 16 = 0.166 moles of A l
From this we conclude that, A l is an excess reagent because the given moles are greater than the required moles and S 8 ​ is a limiting reagent and it limits the formation of product.
Now we have to calculate the moles of A l 2 ​ S 3 ​
From the reaction, we conclude that
As, 3 mole of S 8 ​ react to give 8 mole of A l 2 ​ S 3 ​
So, 0.0312 moles of S 8 ​ react to give 3 0.0312 ​ × 8 = 0.0832 moles of A l 2 ​ S 3 ​
Now we have to calculate the mass of A l 2 ​ S 3 ​
Mass of A l 2 ​ S 3 ​ = Moles of A l 2 ​ S 3 ​ × Molar mass of A l 2 ​ S 3 ​
Mass of A l 2 ​ S 3 ​ = ( 0.0832 m o l es ) × ( 150.2 g / m o l e ) = 12.5 g
Therefore, the mass of aluminum sulfide form from the reaction can be 12.5 grams.

Answered by Alleei | 2024-06-12

2Al + 3S ---> Al₂S₃
1 mole of Al = 27g 1 mole of S = 32g 1 mole of Al₂S₃ = 150g
according to the reaction: 2 27g Al ------------------ 3 32g S 9g Al---------------------------- x g S x = 16g S >> s, alluminium is excess
according to the reaction: 3*32g S----------------------- 150g Al₂S₃ 8g S------------------------------ x Al₂S₃ x = 12,5g Al₂S₃

Answered by pyromorphite | 2024-06-24

The reaction of 9.00 g of aluminum with 8.00 g of sulfur produces 12.5 grams of aluminum sulfide. Sulfur is the limiting reactant in this reaction. We calculate the required moles and convert them to mass to find the answer.
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Answered by Alleei | 2024-09-03

Jawaban:Penjelasan:The chemical structure of 3-phenyl-2-pentanol features a pentane chain (five carbons) with a phenyl group attached to the third carbon, a hydroxyl group (OH) on the second carbon, and a hydrogen atom on the remaining carbons. The structure is based on the parent compound 2-pentanol, but with a phenyl group (C6H5) replacing one of the hydrogens on the third carbon. Here's a more detailed breakdown: Pentanol: The base of the molecule is a pentane chain (CH3-CH2-CH2-CH2-CH3).2-Pentanol: A hydroxyl group (-OH) is attached to the second carbon of the pentane chain.3-Phenyl-2-pentanol: A phenyl group (C6H5) is attached to the third carbon, replacing one of the hydrogens.Simplified Representation:Pentane Backbone: A chain of five carbons (C-C-C-C-C).-OH on C2: A hydroxyl group (OH) is attached to the second carbon from the left.Phenyl on C3: A benzene ring (C6H5) is attached to the third carbon.Remaining carbons: All other carbon atoms have the appropriate number of hydrogen atoms to satisfy their valence (usually three). In essence, 3-phenyl-2-pentanol is a pentanol molecule where a phenyl group has been introduced at the third carbon, and a hydroxyl group is present at the second carbon.

Answered by lakshmi12102008 | 2025-07-05