Answer : The correct answer for the Theoretical Yield is 48.93 g of product .
Theoretical yield : It is amount of product produced by limiting reagent . It is smallest product yield of product formed .
Following are the steps to find theoretical yield .
Step 1) : Write a balanced reaction between Al and Cl₂ .
2 Al + 3 Cl₂→ 2 AlCl₃
Step 2: To find amount of product (AlCl₃) formed by Al .
Following are the sub steps to calculate amount of AlCl₃ formed :
a) To calculate mole of Al :
Given : Mass of Al = 35.5 g
Mole can be calculate by following formula :
[tex] Mole = \frac{given mass (g)}{atomic mass \frac{g}{mol}} [/tex]
[tex] Mole = \frac{35.5 g }{26.9 \frac{g}{mol}} [/tex]
Mole = 1.32 mol
b) To find mole ratio of AlCl₃ : Al
Mole ratio is calculated from balanced reaction .
Mole of Al in balanced reaction = 2
Mole of AlCl₃ in balanced reaction = 2.
Hence mole ratio of AlC; l₃ : Al = 2:2
c) To find mole of AlCl₃ formed :
[tex] Mole of AlCl_3 = Mole of Al * Mole ratio [/tex]
[tex] Mole of AlCl_3 = 1.32 mol of Al * \frac{2}{2} [/tex]
Mole of AlCl₃ = 1.32 mol
d) To find mass of AlCl₃
Molar mass of AlCl₃ = [tex] 133.34 \frac{g}{mol} [/tex]
Mass of AlCl3 can be calculated using mole formula as:
[tex] 1.32 mol of AlCl_3 = \frac{ mass (g)}{133.34 \frac{g}{mol}} [/tex]
Multiplying both side by [tex] 133.34 \frac{g}{mol} [/tex]
[tex] 1.32 mole * 133.34\frac{g}{mol} = \frac{mass (g)}{133.34\frac{g}{mol}} *133.34 \frac{g}{mol} [/tex]
Mass of AlCl₃ = 176.00 g
Hence mass of AlCl₃ produced by Al is 176.00 g
Step 3) To find mass of product (AlCl₃) formed by Cl₂ :
Same steps will be followed to calculate mass of AlCl₃
a) Find mole of Cl₂
[tex] Mole of Cl_2 = \frac{39.0 g}{70.9\frac{g}{mol}} [/tex]
Mole of Cl₂ = 0.55 mol
b) Mole ratio of Cl₂ : AlCl₃
Mole of Cl₂ in balanced reaction = 3
Mole of AlCl₃ in balanced reaction = 2
Hence mole ratio of AlCl₃ : Cl₂ = 2 : 3
c) To find mole of AlCl₃
[tex] Mole of AlCl_3 = mole of Cl_2 * mole ratio [/tex]
[tex] Mole of AlCl_3 = 0.55 mole * \frac{2}{3} [/tex]
Mole of AlCl3 = 0.367 mol
d) To find mass of AlCl₃ :
[tex] 0.367 mol of AlCl_3 = \frac{mass (g) }{133.34 \frac{g}{mol}} [/tex]
Multiplying both side by
[tex] 133.34 \frac{g}{mol} [/tex]
[tex] 0.367 mol of AlCl_3 * 133.34 \frac{g}{mol} = \frac{mass(g)}{133.34\frac{g}{mol}} * 133.34 \frac{g}{mol} [/tex]
Mass of AlCl₃ = 48.93 g
Hence mass of AlCl₃ produced by Cl₂ = 48.93 g
Step 4) To identify limiting reagent and theoretical yield :
Limiting reagent is the reactant which is totally consumed when the reaction is complete . It is identified as the reactant which produces least yield or theoretical yield of product .
The product AlCl₃ formed by Al = 176.00 g
The product AlCl₃ formed by Cl₂ = 48.93 g
Since Cl₂ is producing less amount of product hence it is limiting reagent and 48.93 g will be considered as Theoretical yield .
What causes a ball rolling across a rug to slow to a stop
Answer:
Friction
Explanation:
Friction is a force that slows down moving objects. If you roll a ball across a shaggy rug, you can see that there are lumps and bumps in the rug that make the ball slow down. The rubbing, or friction, between the ball and the rug is what makes the ball stop rolling.
Decreasing the particle size of the reactants in a chemical reaction will increase the rate of reaction by
A) increasing the concentration of the reactants.
B) increasing the surface area of the reactants.
C) increasing the activation energy.
D) increasing the temperature.
Answer: B) increasing the surface area of the reactants.
Explanation:
Decreasing the particle size of the reactants in a chemical reaction will increase the rate of reaction by increasing the surface area of the reactants. Hence, option B is correct.
What is a chemical reaction?A chemical reaction is a process that leads to the transformation of one set of chemical substances into another. It involves breaking and forming chemical bonds between atoms and molecules to form new substances.
In a chemical reaction, the reacting substances are called reactants, and the newly formed substances are called products.
Decreasing the particle size of the reactants in a chemical reaction will increase the rate of reaction by increasing the surface area of the reactants that are available for the reaction.
When the particle size is reduced, the total surface area of the reactant particles is increased, which makes it easier for the particles to collide and react with one another.
Thus, option B is correct.
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Why could a diet low in carbohydrates be dangerous?
A-The increased level of starches would provide excess energy.
B-The body could break down proteins from muscles for energy.
C-The increased level of fats could provide too many vitamins.
D-The body could take in too much dietary fiber, which harms cells.
Answer: Option B.
Explanation:
Low diet carbohydrates are the diets that limits the consumption of carbohydrates.
In low diet carbohydrates, food rich in carbohydrates are replaced by fat or proteins and suggested for the effective plan for weight loss.
Carbohydrates act as primary source of energy, in the absence of less amount of carbohydrates, body breaks down protein and fat into ketone for primary energy source that allows the body to undergo state called ketosis.
Thus, The correct answer is option B.
If 29.0 l of methane, ch4, undergoes complete combustion at 0.961 atm and 140c, how many liters of each product would be present at the same temperature and pressure
Which would show an example of how physical changes are reversible ?
Answer:
Non-destructive physical changes
Explanation:
Hi, this is not a rule but most of the non-destructive physical changes are reversible.
In that group of changes you may find:
State changes (solidification, evaporation, etc.)Adsortion and desortionTemperature changes MixturesThink of a physical change and then try to figure out which process can reverse that.
Calculate the percent composition by mass of oxygen in litharge (gram formula mss=223.2 grams per mole)
Identify the element that has a ground state electronic configuration of [ar]4s23d104p 3 .
How is the energy divided up in the plant
Explanation:
Plants veins provide energy to the rest of the plant and it also provides structure and support to the plant leaves and also transport water. When plants absorb water and nutrients through their roots, their vascular system come in use to move water and nutrients to the rest part of the plants. There are two types of tissue that make up the plants veins are xylem and phloem. Xylem moves water and minerals from the plants's roots and phloem moves food energy to all parts of plant where the plants need it.
When oil and water are mixed vigorously, the oil is broken up into tiny droplets that are dispersed throughout the water. this dispersed mixture is a(n)?
J. J. Thomson
A) Electrons are in orbital levels.
John Dalton
B) Atoms are the smallest unit of an element.
Ernest Rutherford
C) Electrons are scattered within the atom.
Niels Bohr
D) Protons are at the center of an atom.
Anyone good with chemistry? number five and six please?!
Given the decomposition reaction: 2so3(g) → 2so2 (g) + o2 (g) according to le châtelier's principle, which side of the reaction will be favored when more oxygen is added to the reaction chamber?
Virtually all chemical reactions are accompanied by the liberation or uptake of heat. If we regard heat as a "reactant" or "product" in an endothermic or exothermic reaction respectively, we can use the Le Châtelier principle to predict the direction in which an increase or decrease in temperature will shift the equilibrium state. Thus for the oxidation of nitrogen, an endothermic process, we can write
[heat] + N2(g) + O2(g) → 2 NO(g)
Suppose this reaction is at equilibrium at some temperature T1 and we raise the temperature to T2. The Le Châtelier principle tells us that a net reaction will occur in the direction that will partially counteract this change. Since the reaction is endothermic, a shift of the equilibrium to the right will take place.
Answer:
C. the reactants will be favored.
Explanation:
What is the final pressure of a system (atm) that has the volume increased from 0.75 l to 1.1 l with an initial pressure of 1.25 atm? 1.1 0.85 1.8 1.2 none of the above?
Final answer:
The final pressure of the system is 0.85 atm.
Explanation:
To determine the final pressure of the system, we can use the relationship between volume and pressure known as Boyle's Law. According to Boyle's Law, when the volume of a gas increases, the pressure decreases, and vice versa, at constant temperature and amount of gas.
In this case, the initial volume is 0.75 L and the final volume is 1.1 L. Since the volume increased, we can expect the pressure to decrease. The initial pressure is 1.25 atm. Using Boyle's Law, we can set up the equation:
P1 * V1 = P2 * V2
1.25 atm * 0.75 L = P2 * 1.1 L
Solving for P2, we get: P2 = 1.25 atm * 0.75 L / 1.1 L = 0.85 atm
Therefore, the final pressure of the system is 0.85 atm.
What volume of 6.00 m naoh solution is required to prepare 0.50 ml of 0.15 m naoh solution
a. 12.5 ml of naoh
b. 25 ml of naoh
c. 30 ml of naoh?
Final answer:
To prepare 0.50 mL of a 0.15 M NaOH solution from a 6.00 M NaOH solution, you would need 12.5 μL of the concentrated solution according to the dilution formula, which is not listed among the provided answer options.
Explanation:
The volume of 6.00 M NaOH solution required to prepare 0.50 mL of 0.15 M NaOH solution can be found using the dilution formula M1V1 = M2V2, where M1 and V1 are the molarity and volume of the concentrated solution, and M2 and V2 are the molarity and volume of the diluted solution, respectively. Plugging the known values into the equation: (6.00 M)(V1) = (0.15 M)(0.50 mL) ⇒ V1 = (0.15 M)(0.50 mL) / (6.00 M) = 0.0125 mL or 12.5 μL.
Since none of the provided answer choices (a) 12.5 mL, (b) 25 mL, or (c) 30 mL match this result, it seems there might be a typo or a misprint in the question. To prepare 0.50 mL of a 0.15 M solution from a 6.00 M solution, you would need substantially less than 1 mL of the concentrated solution. The likely correct volume needed, based on the question's data, would be 12.5 μL, which is not listed as an option in the question.
What is the chemical formula for the compound tetraphosphorus decasulfide?
The chemical formula for tetraphosphorus decasulfide is P4S10, consisting of four phosphorus atoms and ten sulfur atoms in the compound.
The chemical formula for the compound tetraphosphorus decasulfide is P4S10.
Phosphorus forms various compounds with different stoichiometries, and in this case, tetraphosphorus decasulfide consists of four phosphorus atoms bonded with ten sulfur atoms.
It is crucial to understand chemical formulas to identify elements and their quantities in compounds accurately.
When fracking liquid waste is left in pools on the surface, _ can evaporate into the air and contribute to pollution
Volatile organic compounds (VOCs) can evaporate from fracking liquid waste pools, contributing to air pollution. These pools may also contain hazardous air pollutants and heavy metals, requiring careful handling to avoid environmental contamination.
When fracking liquid waste is left in pools on the surface, volatile organic compounds (VOCs) can evaporate into the air and contribute to pollution. These wastewater ponds can contain a variety of pollutants, including hazardous air pollutants such as benzene, toluene, ethylbenzene, and xylene. Moreover, fracking fluid, also known as flowback, can contain chemicals used in the drilling process, heavy metals, and radioactive materials. These substances pose a significant risk to both environmental and human health if they are not properly managed and treated.
The process of hydraulic fracturing or 'fracking' involves injecting high-pressure fluids to fracture shale deposits, which releases trapped gas and oil. The wastewater from this process may return to the water cycle, but the large volume of contaminated water requires careful handling to prevent land and water pollution. As a proactive measure, governments around the world have taken steps, in some cases banning the practice due to the severe risks associated with fracking.
Adding salt to water when boiling vegetables or pasta makes the water boil at a higher temperature. How much would the boiling point of water be increased if 49.2 g of NaCl is added to 500 mL of water? (Remember that the density of water is 1 g/mL and kb for water is 0.51 oC/m)
What volume, in milliliters, of 2.0 calcium chloride stock solution would you use to make 500 ml of 0.300 m of calcium chloride cacl2 solution?
What is the hydronium ion concentration in a solution of HCl that has a pH of 4.65? × 10n M n = What is the hydroxide ion concentration in a solution of NH3 with a pOH of 4.65? × 10n M n =
Answer:What is the hydronium ion concentration in a solution of HCl that has a pH of 4.65? Round to the nearest hundredth.
2.24 × 10n Mn = -5
What is the hydroxide ion concentration in a solution of NH3 with a pOH of 4.65? Round to the nearest hundredth.
2.24 × 10n Mn = -5
Explanation:
The chemical equation below shows the decomposition of nitrogen triiodide (NI3) into nitrogen (N2) and iodine (I2). 2NI3 mc030-1.jpg N2 + 3I2 The molar mass of I2 is 253.80 g/mol, and the molar mass of NI3 is 394.71 g/mol. How many moles of I2 will form 3.58 g of NI3?
Answer:
0.0135 moles of iodine will be formed.
Explanation:
[tex]2NI_3\rightarrow N_2+3I_2[/tex]
Moles of nitrogen triiodide =[tex]\frac{3.58 g}{394.71 g/mol}=0.0090 mol[/tex]
According to reaction 2 moles of nitrogen triiodide gives 3 moles of iodione gas.
Then 0.0090 mol of nitrogen triiodide will give:
[tex]\frac{3}{2}\times 0.0090 mol=0.0135 mol[/tex]
0.0135 moles of iodine will be formed.
What colors of visible light do green plant leave absorb the most
Which is the best description of a chain of custody?
A) A list of all personnel entering the crime scene.
B) A log of which family member has ownership of the evidence.
C) A log of which agency controls the evidence so the case stays in the correct jurisdiction.
D) A log of who has handled the evidence and when so the integrity of the evidence is upheld.
The ksp of calcium carbonate, caco3, is 3.36 × 10-9 m2. calculate the solubility of this compound in g/l.
The solubility product constant (Ksp) of calcium carbonate is used to calculate the solubility of this compound in water. Considering the 1:1:1 molar ratio between CaCO3 and the ions it forms on dissolution, we derive the solubility as 0.0058 g/l.
Explanation:The subject of your question is the solubility product constant (Ksp) of calcium carbonate (CaCO3). The Ksp is used to calculate the solubility of a compound, such as CaCO3, in a given solvent, which in this case is water. The Ksp is given as 3.36 × 10-9 M² and it is this value that we will use to determine the solubility.
As we know, for the dissolution of calcium carbonate into calcium and carbonate ions, the dissolution reaction can be written as: CaCO3(s) → Ca²+ + CO3²-. Here, it implies that there is a 1:1:1 molar ratio between CaCO3 and the ions it forms on dissolution. Thus, if 's' represents the molarity of CaCO3, then the Ksp expression can be written as Ksp = [Ca²+][CO3²-] = s².
Using the given Ksp value, we can solve the above equation for 's': s = sqrt(Ksp) = sqrt(3.36 × 10-9 M²) = 5.8 × 10-5 M. However, the question asks for the solubility in g/l. To convert molarity (M) to g/l, we multiply by the molecular weight of the compound. For CaCO3, the molecular weight is approximately 100 g/mol. Therefore, the solubility is 5.8 × 10-5 M x 100 g/mol = 0.0058 g/l.
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How many grams of solute are present in 615 ml of 0.630 m kbr?
A person moves a book from a 30-cm high coffee table to the top shelf of a bookshelf approximately 2.5 m high. Which statement correctly describes the gravitational potential energy of the book? It has more gravitational potential energy on the table than on the shelf, It has more gravitational potential energy on the shelf than on the table,Its gravitational potential energy is constant regardless of its position?
Gas stoichiometry: what volume of oxygen at 25 degrees celsius and 1.04 atm is needed for the complete combustion of 5.53 grams of propane?
Final answer:
To find the volume of oxygen needed to combust 5.53 grams of propane, calculate the moles of propane, use the stoichiometric relationship to find the moles of oxygen required, and then apply the ideal gas law to find the volume, resulting in 14.79 liters of oxygen needed.
Explanation:
Gas Stoichiometry of Propane Combustion
To determine the volume of oxygen at 25 degrees Celsius and 1.04 atm needed for the complete combustion of 5.53 grams of propane, we need to use stoichiometry and the ideal gas law. The balanced equation for the combustion of propane C3H8 is:
C3H8(g) + 5O2(g) → 3CO2(g) + 4H2O(l)
First, we convert the mass of propane into moles using its molar mass:
5.53 g C3H8 × (1 mol C3H8 / 44.11 g C3H8) = 0.1253 mol C3H8
According to the balanced equation, 1 mole of propane reacts with 5 moles of oxygen. Therefore, we need:
0.1253 mol C3H8 × (5 mol O2 / 1 mol C3H8) = 0.6265 mol O2
Now, we use the ideal gas law, PV=nRT, to find the volume of oxygen. First, adjust R to match the pressure in atm and volume in liters:
1.04 atm × V = 0.6265 mol × 0.0821 L×atm/mol×K × 298.15 K
Solving for V gives us the volume of oxygen needed:
V = (0.6265 mol × 0.0821 L×atm/mol×K × 298.15 K) / 1.04 atm = 14.79 L
Therefore, 14.79 liters of oxygen at 25 degrees Celsius and 1.04 atm are required for the complete combustion of 5.53 grams of propane.
How many milliliters of .45m hcl will neutralize 25ml of 1m koh?
Calculate the amounts requested if 3.30 mol Fe2O3 completely react according to the following equation. Fe2O3 + 2Al --> 2Fe + Al2O3
a. moles of aluminum needed
b. moles of iron formed
c. moles of aluminum oxide formed
Ka for hcn is 4.9 ⋅ 10-10. what is the ph of a 0.068 m aqueous solution of sodium cyanide? ka for hcn is 4.9 10-10. what is the ph of a 0.068 m aqueous solution of sodium cyanide? 0.74 7.00 2.96 13.24 11.07
Answer
is: pH of solution of sodium cyanide is 11.07.
Chemical reaction 1: NaCN(aq) → CN⁻(aq) + Na⁺(aq).
Chemical reaction 2: CN⁻ + H₂O(l)
⇄ HCN(aq) + OH⁻(aq).
c(NaCN) = c(CN⁻) = 0.068 M.
Ka(HCN) = 4.9·10⁻¹⁰.
Kb(CN⁻) = 10⁻¹⁴ ÷ 4.9·10⁻¹⁰ = 2.04·10⁻⁵.
Kb = [HCN] · [OH⁻] / [CN⁻].
[HCN] · [OH⁻] = x.
[CN⁻]
= 0.068 M - x..
2.04·10⁻⁵ = x² / (0.068 M - x).
Solve quadratic equation: x = [OH⁻] = 0.00116 M.
pOH = -log(0.00116 M) = 2.93.
pH = 14 - 2.93 = 11.07.
The pH of the sodium cyanide solution is 11.56.
Let the cyanide ion be X
We have to set up the ICE table for the problem as follows;
X^-(aq) + H2O(l) ⇄ HX(aq) + OH^-(aq)
I 0.068 x x
C -x + x +x
E 0.068 - x x x
But Kb = Kw/Ka = 1 × 10^-14/4.9 × 10-10
Kb = 2 × 10^-4
So;
Kb = [HX] [OH^-]/[X^-]
2 × 10^-4 = x^2/ 0.068 - x
2 × 10^-4(0.068 - x) = x^2
1.36 × 10^-5 - 2 × 10^-4x = x^2
x^2 + 2 × 10^-4x - 1.36 × 10^-5 = 0
x= 0.0036 M
Since x = [OH^-] = 0.0036 M
pOH = - log(0.0036 M)
pOH = 2.44
pH = 14 - 2.44 = 11.56
The pH of the sodium cyanide solution is 11.56.
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The ph of lemon juice is approximately 2.40. at this ph, the hydronium ion concentration is closest to which concentration? 4.0 × 10¯3 m 0.38 m 5.6 × 10¯4 m 2.5 × 10¯12 m