CHEMISTRY COLLEGE

How many moles of Al are necessary to form 23.6 g of AlBr₃ from this reaction: 2 Al(s) + 3 Br₂(l) → 2 AlBr₃(s) ?

Answers

Answer 1

Answer:

0.085 moles of Al are required to form 23.6 g of AlBr₃.

Let's consider the following balanced equation for the synthesis reaction of AlBr₃.

2 Al(s) + 3 Br₂(l) → 2 AlBr₃(s)

First, we will convert 23.6 g to moles using the molar mass of AlBr₃ (266.69 g/mol).

$23.6 g * (1mol)/(266.69g) = 0.0885 mol$

The molar ratio of Al to AlBr₃ is 2:2. The moles of Al required to form 0.0885 moles of AlBr₃ are:

$0.0885molAlBr_3 * (2molAl)/(2molAlBr_3) = 0.0885molAl$

0.085 moles of Al are required to form 23.6 g of AlBr₃.

You can learn more about stoichiometry here: brainly.com/question/22288091

Answer 2

Answer:

0.088 mole of Al.

Explanation:

First, we shall determine the number of mole in 23.6 g of AlBr₃.

This is illustrated below:

Mass of AlBr₃ = 23.6 g

Molar Mass of AlBr₃ = 27 + 3(80) = 267 g/mol

Mole of AlBr₃ =.?

Mole = mass/Molar mass

Mole of AlBr₃ = 23.6 / 267

Mole of AlBr₃ = 0.088 mol

Next, we shall writing the balanced equation for the reaction.

This is given below:

2Al(s) + 3Br₂(l) → 2AlBr₃(s)

From the balanced equation above,

2 moles of Al reacted with 3 mole of Br₂ to 2 moles AlBr₃.

Finally, we shall determine the number of mole of Al needed for the reaction as follow:

From the balanced equation above,

2 moles of Al reacted to 2 moles AlBr₃.

Therefore, 0.088 mole of Al will also react to produce 0.088 mole of AlBr₃.

Related Questions

2. Which test for iron(II) ions is conclusive
A eraser has a mass of 4g and a volume of 2cm3 what is it’s density
Consider the dissolution of AB(s):AB(s)⇌A+(aq)+B−(aq)Le Châtelier's principle tells us that an increase in either [A+] or [B−] will shift this equilibrium to the left, reducing the solubility of AB. In other words, AB is more soluble in pure water than in a solution that already contains A+ or B− ions. This is an example of the common-ion effect.The generic metal hydroxide M(OH)2 has Ksp = 1.05×10−18. (NOTE: In this particular problem, because of the magnitude of the Ksp and the stoichiometry of the compound, the contribution of OH− from water can be ignored. However, this may not always be the case.)What is the solubility of M(OH)2 in pure water?
What is the pOH of a solution with a [OH^ - ] of 10^ -11?
How many subshells in 4s

A solution in which the pH is 1.6 would be described asa.
very acidic
b.
slightly acidic
c.
very basic
d.
slightly basic
e.
neutral

Answers

Answer:

a. very acidic

Explanation:

A solution with a pH of 1.6 would be described as a very acidic solution.

The pH scale is a convenient scale for expressing the level of acidity or alkalinity of aqueous solutions.

The scale ranges from 1 to 14 in which case 1 is the lower limit and 14 the upper limit.

An acidic solution has a pH value less than 7. As pH decreases, the acidity of the solution increases.
Neutral solutions have a pH of 7
An alkaline solution has a pH greater than 7 and the level of alkalinity increases as pH increases.

A cube of aluminum measures 3 cm on each side and weighs 81 g. What is its density? (HINT: find the volume of the block first)D=

M=

V=

Answers

The density of the aluminum is 3 g/cm³

The density of a substance is simply defined as the mass of the subtance per unit volume of the substance.

$Density = (Mass )/(Volume )$

To obtain the density of the aluminum, we'll begin by calculating the volume of the aluminum. This can be obtained as follow:

From the question given above, each side of the aluminum cube measures 3 cm. Thus,

Length (L) = 3 cm

Width (W) = 3 cm

Height (H) = 3 cm

Volume = Length × Width × Height

Volume = 3 × 3 × 3

Volume = 27 cm³

Therefore, the volume of the aluminum is 27 cm³

Finally, we shall determine the density of the aluminum. This can be obtained as follow:

Mass = 81 g

Volume = 27 cm³

Density =?

$Density = (Mass )/(Volume )\n\nDensity = (81)/(27)$

Density = 3 g/cm³

Therefore, the density of the aluminum is 3 g/cm³

Learn more: brainly.com/question/19239648

Answer:

Explanation: volume-3 times 6=18 /mass- 81 times 6= 486.... 486 divided by 18 = 27.... a cube has 6 sides.

Reaction A has a high activation energy, whereas reacton B has a low activation energy. Which of the statements about reaction A and reaction B are true? Reaction B is likely to occur at a faster rate than reaction A. Reaction A is more likely to occur at all than reaction B. Reaction B is more likely to occur at all than reaction A. Reaction A is likely to occur at a faster rate than reaction B.

Answers

The statement about reaction A and reaction B are true is: A. Reaction B is likely to occur at a faster rate than reaction A.

An activation energy can be defined as the minimum quantity of energy that must be provided for reacting chemical elements, so as to undergo a chemical reaction. Thus, the activation energy of a chemical reaction must first of all be reached by its combining chemical elements (reactants) before it can start or begin.

As a general rule, the lower the activation energy of a chemical reaction, the faster is the rate of a chemical reaction and vice-versa. This ultimately implies that, the activation energy of a chemical reaction should be lowered, in order for it to occur fast (quickly) enough over a short period of time.

In conclusion, reaction B is likely to occur at a faster rate than reaction A because of its low activation energy.

Answers

the answer is liquid ! hope this helped :)

Calculate the entropy change for the gas. (2b)Calculate the entropy change when 14 g of nitrogen expand from a volume of 10 L to a volume of 30 L at the same temperature. Assuming ideal behaviour for the nitrogen gas

Answers

Explanation:

because T is const so

deltaS=Q/T=nRLn(V2/V1)

=(14/28)x8.314xLn(30/10)=4,567 J/k

Write balanced net ionic equations and the corresponding equilibrium equations for the stepwise dissociation of the triprotic acid H3PO4.

Answers

Answer:

$H_3PO_4(aq)+H_2O(l)\rightleftharpoons H_3O^+(aq)+H_2PO_4^(-)(aq); \ Ka_1$

$H_2PO_4^(-)(aq)+H_2O(l)\rightleftharpoons H_3O^+(aq)+HPO_4^(-2)(aq); \ Ka_2$

$HPO_4^(-2)(aq)+H_2O(l)\rightleftharpoons H_3O^+(aq)+PO_4^(-3)(aq); \ Ka_3$

Explanation:

Hello!

In this case, since the phosphoric acid is a triprotic acid, we infer it has three stepwise ionization reactions in which one hydrogen ion is released at each step, considering they are undergone due to the presence of water, thus, we proceed as follows:

$H_3PO_4(aq)+H_2O(l)\rightleftharpoons H_3O^+(aq)+H_2PO_4^(-)(aq); \ Ka_1$

$H_2PO_4^(-)(aq)+H_2O(l)\rightleftharpoons H_3O^+(aq)+HPO_4^(-2)(aq); \ Ka_2$

$HPO_4^(-2)(aq)+H_2O(l)\rightleftharpoons H_3O^+(aq)+PO_4^(-3)(aq); \ Ka_3$

Moreover, notice each step has a different acid dissociation constant, which are quantified in the following order:

Ka1 > Ka2 > Ka3

Best regards!

Other Questions

An ice cube melts in the hot sun. Is this exothermic or endothermic andwhy?

A food is initially at a moisture content of 90% dry basis. Calculate the moisture content in wet basis

Please help with this

With 21 g of Zinc, and 7 g of CuCl2, how much ZnCl2 is made in grams?