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Aluminum Hydroxide
Aluminium Hydroxide or in other terms Al(OH)3
The molar mass of aluminium hyroxide is approximately 78 g/mol.
It depends on how and where the reaction takes place. Aluminium chloride is unstable in the prescence of water and reacts to give a variety of hydroxy-chlorides or hydroxide, or hydrated complex salts. With no water present, there is likely to be a complex salt formed.
Al4C3 +12H2O = 4Al(OH)3 + 3CH4
Aluminum forms a +3 ion, and hydroxide's formula is OH-, so the formula for aluminum hydroxide would be: Al(OH)3
Aluminum Hydroxide
Aluminium hydroxide - Al(OH)3
Aluminium Hydroxide or in other terms Al(OH)3
That is aluminum hydroxide and as a polyatomic ion hydroxide needs to be in parenthesis. Thus; Al(OH)3 This shows aluminum's 3+ oxidation state and the three matching hydroxides 1- state. 42 grams Al(OH)3 ( 1 mole Al(OH)3/78.004 grams) = 0.538 moles Al(OH)3 As significant figures require; 0.54 moles Al(OH)3
Al(OH)3 is a base (Aluminum hyroxide)
The molar mass of aluminium hyroxide is approximately 78 g/mol.
The chemical compound OH3 does NOT exist. Water is OH2, and there is some OH3+ in any sample of water, this is due to the dissocation of water.
Al(OH)3 Indicates that there are three OH groups per Al metal
The reaction equation with conventional capitalization is: Al(OH)3 + 3 HCl -> AlCl3 + 3 H2O. The gram formula unit masses are 78.00 for aluminum hydroxide, 133.34 for aluminum chloride, 36.46 for hydrogen chloride, and 18.015 for water. Therefore, the relative mass ratios are (78.00) to [3(18.015)] or about 1.443 for the ratio of the two reactants. The mass ratio of the specified available amounts of the two reactants is 385/256 or about 1.503, which is greater than the theoretical amount. Therefore, the limiting reactant is HCl. The stoichiometric reactant mass ratio of aluminum chloride to hydrogen chloride is about 133.34/(3)(36.46) or about 1.219. Therefore, a fully reacted amount of 256 g of hydrogen chloride will produce about (1.219)(256) or about 312 g of aluminum chloride. (The provided data for masses has three significant digits, so that the answer should also have three significant digits.)
Al(OH)3
It depends on how and where the reaction takes place. Aluminium chloride is unstable in the prescence of water and reacts to give a variety of hydroxy-chlorides or hydroxide, or hydrated complex salts. With no water present, there is likely to be a complex salt formed.