Look up some everyday objects and the amounts of energy they use or release.
How does this compare to the reaction found via Hess' Law.

The IUPAC name of the amine shown is N-ethylbutan-1-amine.

The IUPAC name of an organic compound is a systematic way of naming organic chemical compounds as recommended by the International Union of Pure and Applied Chemistry (IUPAC).

It is a standard method to ensure that every organic compound has a unique name, which reflects its structure and the functional groups present in the molecule.

The IUPAC name usually consists of several parts, including the parent chain, substituent groups, and functional groups, arranged in a specific order according to a set of rules.

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Answer:

mass = 25.0 g

density = 1.48 g / cm^3

volume = ?

volume = mass / density

volume = 25 / 1.48

volume = 16.892 cm^3

Potassium (K) reacts with water (H2O) to form potassium hydroxide (KOH) and hydrogen gas (H2).

What is Balanced Chemical Equation?

A balanced chemical equation is a representation of a chemical reaction that shows the relative numbers of reactant and product molecules that participate in the reaction. It obeys the law of conservation of mass, which states that matter cannot be created or destroyed, only transformed from one form to another.

The given chemical equation represents a chemical reaction between potassium (K) and water (H2O), which results in the formation of potassium hydroxide (KOH) and hydrogen gas (H2).

When potassium is added to water, it reacts vigorously, releasing hydrogen gas and forming an alkaline solution of potassium hydroxide. The balanced chemical equation shows that for every 2 moles of potassium (K) and 2 moles of water (H2O), 2 moles of potassium hydroxide (KOH) and 1 mole of hydrogen gas (H2) are produced.

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The mass proportion of sugar in the initial combination, assuming complete dissociation of the salt, is 55.0%.

There are 58.44 g/mol of NaCl in the mixture, which equals the following:

Moles of NaCl are equal to the mass of NaCl divided by the molar mass of NaCl. For example, 10.40 g - x g = 58.44 g/mol

NaCl dissolves into two particles, hence there are actually two particles in the solution.

effective particles equal 2 moles of sodium chloride plus 1 mole of sugar.

2.24 °C = 1.86 °C mol/kg x (27.63 - 0.605 x) mol/kg

x = 5.72 g

(Mass of sugar / Total Mass of Mixture) x 100%, where % Sugar

% sugar = 55.0%

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The molecule in the image appears to be uracil, a nucleobase found in RNA. Uracil can form hydrogen bonds with other molecules through its functional groups.

Uracil can form two hydrogen bonds via its carbonyl group (C=O) and two hydrogen bonds via its amino group (NH₂), for a total of four potential hydrogen bonds. Uracil can form hydrogen bonds with water molecules through its hydrogen bond acceptor groups. The carbonyl group can accept two hydrogen bonds from water molecules, while the amino group can accept one hydroge

Uracil has three potential hydrogen bond acceptors: the two oxygen atoms in its carbonyl group (C=O) and the nitrogen atom in its amino group (NH₂). If two uracil molecules were to interact, they could form a total of four hydrogen bonds between them, as each uracil molecule has four potential hydrogen bond donors and acceptors.

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The measurement of 0.03412 kg has 5 significant figures. Significant figures are used to provide an indication of the precision of a measurement and should be used when performing calculations.

Measurements are the numerical values used to quantify the size, amount, or extent of something. Measurements are used to describe physical attributes and characteristics, such as length, width, weight, height, area, volume, speed, temperature, pressure, force, energy, power, and time. Measurements are also used to determine the amount of a certain material that is needed for a given purpose, such as a recipe. Measurements are essential for scientific investigation, engineering, and other activities that require precision and accuracy.

The measurement of 0.03412 kg has 5 significant figures. Significant figures are the meaningful digits of a number that are important in providing information about the measurement. In this measurement, the 4 digits after the decimal point (3412) provide the precision of the measurement, and therefore are significant figures. The leading zero does not provide any additional precision and is not a significant figure. Therefore, the measurement of 0.03412 kg has 5 significant figures.

Significant figures are used to provide an indication of the precision of a measurement. For example, a measurement of 0.03412 kg has a precision of 0.00001 kg, which is greater than a measurement of 0.3412 kg, which has a precision of 0.0001 kg. The more significant figures a measurement has, the more precise it is.

Significant figures are also important in calculations. To ensure accuracy, all calculations should be done using the same number of significant figures as the measurements being used. For example, if two measurements, 0.03412 kg and 0.02384 kg, are used in a calculation, the result should be reported to 5 significant figures.

In conclusion, the measurement of 0.03412 kg has 5 significant figures. Significant figures are used to provide an indication of the precision of a measurement and should be used when performing calculations.

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The measurement of 0.03412 kg has 5 significant figures. Significant figures are used to provide an indication of the precision of a measurement and should be used when performing calculations.

Measurements are the numerical values used to quantify the size, amount, or extent of something. Measurements are used to describe physical attributes and characteristics, such as length, width, weight, height, area, volume, speed, temperature, pressure, force, energy, power, and time. Measurements are also used to determine the amount of a certain material that is needed for a given purpose, such as a recipe. Measurements are essential for scientific investigation, engineering, and other activities that require precision and accuracy.

The measurement of 0.03412 kg has 5 significant figures. Significant figures are the meaningful digits of a number that are important in providing information about the measurement. In this measurement, the 4 digits after the decimal point (3412) provide the precision of the measurement, and therefore are significant figures. The leading zero does not provide any additional precision and is not a significant figure. Therefore, the measurement of 0.03412 kg has 5 significant figures.

Significant figures are also important in calculations. To ensure accuracy, all calculations should be done using the same number of significant figures as the measurements being used. For example, if two measurements, 0.03412 kg and 0.02384 kg, are used in a calculation, the result should be reported to 5 significant figures.

In conclusion, the measurement of 0.03412 kg has 5 significant figures. Significant figures are used to provide an indication of the precision of a measurement and should be used when performing calculations.

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The complete question is as follows:

How many significant figure are in 0.03412​ kg?

Wear personal defence tools, follow the guidelines and be careful with chemicals. Measure 14.72g of [tex]H_2SO_4[/tex], dissolve in distilled water, and make up to 400mL in a volumetric flask.

1. Always wear appropriate personal protective equipment such as gloves, goggles, and lab coat.

2. Read and follow the instructions carefully before handling any chemical.

3. Handle the chemicals in a well-ventilated area to prevent inhalation of harmful fumes.

To prepare a 0.2M solution of tetraoxosulphate (VI) acid in a [tex]400cm^3[/tex]  volumetric flask:

Calculate the amount of tetraoxosulphate (VI) acid required using the formula:

Mass = (Molarity x Volume x Molecular weight) / 1000

Where:

Molarity = 0.2M

Volume =[tex]400cm^3[/tex]

Molecular weight = (4x16) + 32 + (6x16) = 98g/mol

Mass = (0.2 x 400 x 98) / 1000 = 7.84g

Weigh out 7.84g of tetraoxosulphate (VI) acid using a balance.

Transfer the weighed tetraoxosulphate (VI) acid into the [tex]400cm^3[/tex] volumetric flask using a funnel.

Add distilled water to the flask until the volume reaches the [tex]400cm^3[/tex] mark on the neck of the flask.

Stopper the flask and mix the solution thoroughly by inverting the flask several times.

It is important to specify the density of the tetraoxosulphate (VI) acid, as this will affect the mass required for the solution. In this case, the percentage purity of the acid is also given, which can be used to calculate the actual mass of the tetraoxosulphate (VI) acid needed.

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The compounds that has the highest boiling point, is Propanoic acid, because it can form intermolecular hydrogen bonds.

Therefore Option D is correct.

Intermolecular hydrogen bonding occurs when a hydrogen atom in one molecule is attracted to an electronegative atom, such as nitrogen, oxygen, or fluorine, in another molecule.

We know that Propanoic acid contains a carboxyl group (-COOH), which has a hydrogen atom bonded to an oxygen atom. This hydrogen atom will then form hydrogen bonds with other propanoic acid molecules, making the intermolecular forces stronger than the other compounds listed.

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A. They all have densities less than the density of water.

What is Density?

Density is a physical property of matter that describes the amount of mass per unit volume of a substance. In other words, it is the measure of how much matter is packed into a given space or volume.

Density is usually expressed in units of grams per cubic centimeter (g/cm³) or kilograms per cubic meter (kg/m³). The formula for density is:

If an object has a density that is greater than the density of water (1 g/cm³), it will sink in water. If its density is less than water, it will float. Since all three objects float on water, it must mean that their densities are less than the density of water. This is due to Archimedes' principle, which states that a floating object will displace its own weight of the fluid in which it floats.

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The correct answer is E. In a hydrogen atom, the 2s and 2p subshells have identical energy. and The 4px, 4py, and 4pz orbitals look the same, but they point in different directions.

An atom is the smallest unit of rely on that keeps the homes of an element. It is made up of a positively charged nucleus, composed of protons and neutrons, surrounded by negatively charged electrons that orbit around the nucleus in energy levels or shells. The number of protons in an atom's nucleus is called its atomic number, which determines the element it belongs to.

Atoms are incredibly small, with a typical diameter of around 0.1 to 0.5 nanometers, and are the basic building blocks of all matter. Atoms can bond with one another to form molecules, which in turn make up all the substances we encounter in our daily lives. The behavior of atoms is governed by the laws of physics, including quantum mechanics, which describes the behavior of particles at the atomic and subatomic levels.

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For Au-196.96656, the values of the atomic number and mass number are given below:

The atomic number is the number of protons in the nucleus of an atom. It determines the element to which the atom belongs.

The mass number, on the other hand, is the sum of the number of protons and neutrons in the nucleus of an atom. It is represented by the letter A.

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The empirical formula of Aniline is C9H10N and its molecular formula is C9H9.9N.

To determine the empirical formula of Aniline, we need to calculate the number of moles of each element present in the given mass of the compound and then find the smallest whole-number ratio between them.

Given:

Mass of Aniline = 9.71 mg

Mass of water produced = 6.63 mg

Mass of N2 produced = 1.46 mg

The molecular weight of Aniline = 93 amu

First, let's calculate the number of moles of water and nitrogen produced:

moles of H2O = 6.63 mg / 18.015 g/mol = 0.3680 mmol

moles of N2 = 1.46 mg / 28.014 g/mol = 0.0521 mmol

Next, we need to calculate the number of moles of carbon and nitrogen present in Aniline:

moles of C = (9.71 mg - (0.3680 mmol x 12.011 g/mol)) / 12.011 g/mol = 0.4811 mmol

moles of N = 0.0521 mmol

Now, we need to find the smallest whole-number ratio between these elements. We can divide the number of moles of each element by the smallest value, which is 0.0521 mmol:

moles of C = 0.4811 mmol / 0.0521 mmol = 9.231 ≈ 9

moles of N = 1

moles of H = not calculated, but we can find it using the difference in mass between Aniline and the products formed.

Now, let's calculate the mass of carbon and nitrogen in Aniline:

mass of C = 9 x 12.011 g/mol = 108.099 g/mol

mass of N = 1 x 14.007 g/mol = 14.007 g/mol

Finally, we can calculate the mass of hydrogen by taking the difference between the mass of Aniline and the sum of the masses of carbon, nitrogen, water, and nitrogen:

mass of H = 9.71 mg - (108.099 g/mol + 14.007 g/mol + 6.63 mg + 1.46 mg) = 2.47 mg

Now, we can calculate the number of moles of hydrogen:

moles of H = 2.47 mg / 1.008 g/mol = 2.449 mmol

Finally, we can express the empirical formula of Aniline as: C9H10N

To find the molecular formula, we need to calculate the molecular weight of the empirical formula:

Empirical formula weight = (9 x 12.011 g/mol) + (10 x 1.008 g/mol) + (1 x 14.007 g/mol) = 93.126 g/mol

Now, we can find the molecular formula by dividing the molecular weight of Aniline by the empirical formula weight and multiplying each subscript in the empirical formula by the result:

The molecular weight of Aniline = 93 amu

The molecular weight of the empirical formula = 93.126 g/mol

Molecular formula = empirical formula x (Molecular weight of Aniline / Empirical formula weight)

= C9H10N x (93 amu / 93.126 g/mol)

= C9H9.9N

Therefore, the empirical formula of Aniline is C9H10N and its molecular formula is C9H9.9N.

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First, Petra photographs and measures the mark, then makes a replica of the hole. She collects all the knives in the area for comparison and uses them to create additional replicas of the marking. She then carefully documents the chain of custody for each of the replicas, ensuring that they are stored securely and remain unaltered until they can be analyzed by a forensic expert. When packaging the knives, Petra uses airtight and tamper-proof containers, such as evidence bags or boxes, to prevent contamination or damage to the evidence. Each container should be clearly labeled with identifying information, such as the location, date and time of collection, and the names of those who collected and handled the evidence. It is important that Petra takes great care to preserve the integrity of the evidence and follow proper chain of custody procedures to ensure that the evidence can be used in court, if necessary.

There are 0.03675 moles of NaI in 175.0 mL of 0.210 M NaI solution.

To calculate the number of moles of NaI in 175.0 mL of 0.210 M NaI solution, we can use the formula:

moles of solute = concentration (in M) x volume (in liters)

First, we need to convert the volume from milliliters to liters:

175.0 mL = 175.0/1000 L = 0.175 L

Now we can plug in the values:

moles of NaI = 0.210 M x 0.175 L = 0.03675 moles of NaI

Therefore, there are 0.03675 moles of NaI in 175.0 mL of 0.210 M NaI solution.

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Answer:

At STP (standard temperature and pressure), the conditions are:

Temperature (T) = 273.15 K Pressure (P) = 1 atm = 101.3 kPa Volume (V) = 22.4 L (for one mole of gas)

So, for a gas at STP with a volume of 5 L, we can use the following formula to calculate the number of moles present:

n = V / Vm

where: n = number of moles V = volume of gas (in liters) Vm = molar volume of gas at STP (22.4 L/mol)

Plugging in the values, we get:

n = 5 L / 22.4 L/mol n = 0.2232 mol (rounded to four significant figures)

Therefore, there are approximately 0.2232 moles of the gas present.

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The weight, in grammes, of 2.00 x 1023 F2 molecules. As a result, 12. 62 g equals 21023 moles of F2.

The precise formula for determining a substance's Gram Molecular Mass is: Formula in grammes Mass is equal to the product of the solute's mass and its formula. It is consistently expressed in terms of grammes per mole (g/mol).

Number-wise, the mass with one mole (or formula unit) of atomic mass units is equal to the mass with one mole (or formulas unit) in grammes. One mole of O2 molecules, for instance, weighs 32.00 g and a single O2 molecule, 32.00 u.

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Based on the given information, it can be inferred that a chemical reaction occurred in test tube #4, resulting in a change of color.

Silver nitrate (AgNO3) is commonly used as a reagent in chemical reactions. It is known to react with halide ions, such as chloride (Cl-), bromide (Br-), and iodide (I-), forming insoluble silver halide compounds. For example, the reaction between silver nitrate and chloride ions can be represented by the following equation:

AgNO3(aq) + Cl-(aq) -> AgCl(s) + NO3-(aq)

In this reaction, silver nitrate reacts with chloride ions to form silver chloride, which is insoluble in water and precipitates out of solution. This reaction can cause a color change, as the precipitate has a different color than the original solution.

The effect of the reaction on the equilibrium position will depend on the specific equilibrium involved in the experiment. If the reaction involves the formation of a product that is also a reactant in the equilibrium, the reaction will shift the equilibrium to favor the reactants. Conversely, if the reaction involves the formation of a product that is not a reactant in the equilibrium, the equilibrium will shift to favor the products.

In conclusion, the role of silver nitrate in the reaction depends on the specific experiment, but it is known to react with halide ions to form insoluble silver halide compounds. The effect on the equilibrium position will depend on the specific equilibrium involved in the reaction.

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Answer:

there are approximately 0.004118 moles in 0.1 g of magnesium.

Explanation:

The molar mass of magnesium is approximately 24.31 g/mol. To calculate the number of moles in 0.1 g of magnesium, we can use the following formula:

Number of moles = Mass / Molar mass

Number of moles = 0.1 g / 24.31 g/mol

Number of moles = 0.004118 mol (rounded to 3 significant figures)

Therefore, there are approximately 0.004118 moles in 0.1 g of magnesium.

Answer:

Explanation:

To calculate the number of moles of magnesium in 0.1 g of magnesium, we first need to determine the molar mass of magnesium. The molar mass of magnesium is 24.31 g/mol.

Using this information, we can use the following formula to calculate the number of moles of magnesium:

moles of magnesium = mass of magnesium / molar mass of magnesium

moles of magnesium = 0.1 g / 24.31 g/mol

moles of magnesium ≈ 0.00412 mol

Therefore, there are approximately 0.00412 moles of magnesium in 0.1 g of magnesium.

Answer:

it is "no"

Explanation:

do u understand

Therefore, 0.160 moles of aluminum chloride could be produced from 17.0g of chlorine gas, Chlorine.

Aluminum chloride is created when aluminum and chlorine gas combine, as shown by the equation below. 3Chlorine + 2aluminum = 2Aluminum chloride if the reaction between 20 aluminum ions and 45 chlorine gas molecules.

First, let's determine how many molecules of each reactant we have:

moles of aluminum = 12.0 g / 26.98 g/mol = 0.445 mol

moles of Chlorine = 17.0 g / 70.90 g/mol = 0.240 mol

To determine the limiting reagent, we need to compare the actual mole ratio of aluminum to Chlorine with the stoichiometric ratio. The actual ratio is:

0.445 mol aluminum / 0.240 mol Chlorine = 1.854

From the balanced equation, 3 moles of Chlorine react with 2 moles of Aluminum chloride to form 2 moles of Aluminum chloride. Therefore, the number of moles of Aluminum chloride that can be produced is:

0.240 mol Chlorine × (2 mol Aluminum chloride / 3 mol Chlorine) = 0.160 mol Aluminum chloride

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4. To determine how many moles of NaOH are needed to make a 6 liters of a 3.0 M NaOH solution, we can use the formula:

moles = concentration (in M) x volume (in L)

Substituting the values given, we have:

moles = 3.0 M x 6 L = 18 moles of NaOH

Therefore, 18 moles of NaOH are needed to make a 6 liters of a 3.0 M NaOH solution.

5. To determine how many grams of NaOH are needed to make 4 liters of a 6.0 M NaOH solution, we can use the formula:

moles = concentration (in M) x volume (in L)

Then, we can use the molar mass of NaOH to convert moles to grams:

mass (in g) = moles x molar mass

The molar mass of NaOH is 40 g/mol.

Substituting the values given, we have:

moles = 6.0 M x 4 L = 24 moles of NaOH

mass = 24 moles x 40 g/mol = 960 grams of NaOH

Therefore, 960 grams of NaOH are needed to make 4 liters of a 6.0 M NaOH solution.

"Yes, a precipitate will occur since Ksp is less than Q," is the response.

Based on the given information, we can calculate the reaction quotient (Q) for the precipitation of barium carbonate:

BaCl2(aq) + Na2CO3(aq) → BaCO3(s) + 2NaCl(aq)

Q = [Ba2+][CO32-] = (1.5 x 10^-3 M)(1.0 x 10^-3 M) = 1.5 x 10^-6

Since the value of Q (1.5 x 10^-6) is greater than the value of the solubility product constant (Ksp = 2.6 x 10^-9), the reaction is not at equilibrium and will proceed to form a precipitate of barium carbonate (BaCO3).

Therefore, the answer is "Yes, a precipitate will form because Ksp is less than Q".

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The de Broglie wavelength of an electron is given by the equation:

λ = h / mv

where λ is the wavelength, h is Planck's constant, m is the mass of the electron, and v is its velocity.

Substituting the given values, we get:

λ = h / mv

= (6.626 × 10^-34 J s) / (9.1 × 10^-31 kg)(7.0 × 10^6 m/s)

= 1.22 × 10^-10 m

Therefore, the wavelength of the electron is 1.22 × 10^-10 m.

The calculated energy change for the given reaction is H° = 83 kJ/mol.

Calculation-

(Bond energies of broken bonds) - H° (bond energies of bonds formed)

H—C—C—H and 2 Br2 are the reactants in the reaction described. Here are the goods: CHBr2—CHBr2.

H—C—C bond's bond energy is 837 kJ/mol.

Br—Br bond's bond energy is 193 kJ/mol (for 1 Br2 molecule)

Thus, the amount of total energy needed to dissolve the reactants' bonds is:

(1,223 kJ/mol) = (837 kJ/mol 1) + (193 kJ/mol 2)

∆H° = Σ (bond energies of bonds broken) - Σ (bond energies of bonds formed)

= (1,223 kJ/mol) - (1,140 kJ/mol)

= 83 kJ/mol

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There are approximately 2.526 × 10^26 atoms of O in 46.6 moles of Al2(CO3)3.

To find the number of atoms of O in 46.6 moles of Al2(CO3)3, we need to first calculate the total number of moles of O in the compound and then multiply it by Avogadro's number.

The molecular formula of Al2(CO3)3 shows that there are three O atoms per one CO3 group, and there are three CO3 groups per one Al2(CO3)3 molecule. Therefore, the total number of O atoms in one Al2(CO3)3 molecule is:

3 O atoms/CO3 group × 3 CO3 groups/Al2(CO3)3 molecule = 9 O atoms/Al2(CO3)3 molecule

Next, we need to calculate the total number of moles of O atoms in 46.6 moles of Al2(CO3)3:

46.6 moles Al2(CO3)3 × 9 O atoms/Al2(CO3)3 molecule = 419.4 moles O atoms

Finally, we can calculate the total number of O atoms by multiplying the number of moles of O by Avogadro's number:

419.4 moles O atoms × 6.022 × 10^23 atoms/mole = 2.526 × 10^26 O atoms

Therefore, there are approximately 2.526 × 10^26 atoms of O in 46.6 moles of Al2(CO3)3.

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The cation of zinc sulfate is Zn²⁺, which is a positively charged ion of zinc.

The anion of zinc sulfate is SO₄²⁻, which is a negatively charged ion of sulfate.

A cation is a positively charged ion that is formed when an atom loses one or more electrons. The loss of electrons causes the atom to have a net positive charge, and it is then referred to as a cation. Cations are formed from metals, which tend to lose electrons to form positively charged ions.

An anion, on the other hand, is a negatively charged ion that is formed when an atom gains one or more electrons. The gain of electrons causes the atom to have a net negative charge, and it is then referred to as an anion. Anions are formed from non-metals, which tend to gain electrons to form negatively charged ions.

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The given reaction is an equilibrium reaction, and the equilibrium constant (Kc) is 8.50×10−6 at 500 K.

The balanced equation indicates that for every one mole of A that reacts, three moles of B are produced. Thus, we can set up an ICE (initial, change, equilibrium) table to determine the equilibrium concentration of B:

Initial: [A] = 2.50 M, [B] = 0 M

Change: -x, +3x

Equilibrium: [A] = 2.50 - x M, [B] = 3x M

Using the equilibrium constant expression for the given reaction, we can write:

Kc = [B]³/[A]

8.50×10−6 = (3x)³/(2.50 - x)

Simplifying and solving for x, we get:

x = 0.00406 M

Therefore, the equilibrium concentration of B is:

[B] = 3x = 0.0122 M

So the concentration of B at equilibrium is 0.0122 M.

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