At a certain temperature, this reaction establishes an equilibrium with the given equilibrium constant, Kc. 3A(g)+2B(g)↽−−⇀4C(g)c=2.93×1021 If, at this temperature, 1.00 mol of A and 3.50 mol of B are placed in a 1.00 L container, what are the concentrations of A, B, and C at equilibrium?

Answers

Answer 1

The equilibrium concentration of A, B and C are 0.02 M, 2.38 M and 3.04 M respectively.

What is Equilibrium Concentration?

When the products and reactants do not alter over time, we say that a chemical is in equilibrium concentration.

In other words, a chemical reaction enters a state of equilibrium or equilibrium concentration when the rate of the forward reaction equals the rate of backward reaction.

We are given:

Initial moles of A = 2.30 molesInitial moles of B = 3.90 molesThe volume of the container = 1.00 L

Concentration = Number of moles/ Volume

So, the concentration of A is 2.30M

The concentration of B is 3.90M

If we factor in the chemical equation given: 3A(g) + 2B(g) ---> 4C(g)

Initial:          2.30       3.90

At eqllm:   2.30-3x   3.90-2x    4x

After solving, we would get that the equilibrium concentration of A, B and C are 0.02 M, 2.38 M and 3.04 M respectively.

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Related Questions

Complete the following radioactive decay problem.210/84po —> 206/82pb+?2/4he4/2he4/2be2/4be

Answers

The missing particle in the radioactive decay problem is an alpha particle (2He4). This can be determined by balancing the mass numbers and atomic numbers on both sides of the equation.

In radioactive decay, an unstable atom loses energy by emitting radiation. This radiation can be in the form of alpha particles, beta particles, or gamma rays. Alpha particles are the most massive type of radiation, and they are made up of two protons and two neutrons. Beta particles are less massive than alpha particles, and they are made up of an electron. Gamma rays are the least massive type of radiation, and they are high-energy photons.

In the given problem, the mass number of the polonium atom is 210, and the atomic number is 84. The mass number of the lead atom is 206, and the atomic number is 82. This means that two protons and two neutrons have been lost in the decay process. The only type of radiation that can carry away this much mass is an alpha particle.

Therefore, the missing particle in the radioactive decay problem is an alpha particle (2He4).

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Show how a strecker synthesis might be used to prepare phenylalanine starting from phenylacetaldehyde.

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The Strecker synthesis is a method for the synthesis of amino acids from aldehydes using cyanide and ammonia.

Here is how phenylalanine can be prepared using Strecker synthesis starting from phenylacetaldehyde:

Step 1: Condensation

Phenylacetaldehyde is condensed with hydrogen cyanide (HCN) to form the cyanohydrin intermediate:

Phenylacetaldehyde + HCN → phenylacetaldehyde cyanohydrin

Step 2: Hydrolysis

The cyanohydrin intermediate is then hydrolyzed in the presence of aqueous acid to form an amino acid. In this case, the amino acid formed will be phenylalanine.

Phenylacetaldehyde cyanohydrin + NH3 + H2O → phenylalanine + HCN

Therefore, phenylalanine can be prepared from phenylacetaldehyde using Strecker synthesis by condensing it with HCN to form phenylacetaldehyde cyanohydrin,

followed by hydrolysis in the presence of aqueous acid to form phenylalanine.

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Select the nuclide that completes the following nuclear reaction. 123 A) 12:Sb B) 1a,Te C) insb D) 111 E) none of the above

Answers

The answer cannot be determined with certainty, but option B, 1a,Te, is a possibility. Te is the chemical symbol for the element tellurium, which has an atomic number of 52.

The given nuclear reaction is incomplete, so it is impossible to determine the answer with certainty. However, we can make some assumptions based on the given information. The nuclide that is missing is the one that would combine with the reactants to form the product. The reactants are not specified, so we cannot use this information to determine the missing nuclide. However, we do know that the missing nuclide must have a mass number of 123, since this is the mass number of the product.
Based on this information, we can eliminate options C and D, since they do not have a mass number of 123. Option A, 12:Sb, is not a valid chemical symbol, so it can also be eliminated. This leaves options B and E. Option E, none of the above, is a possibility since we do not have enough information to determine the missing nuclide. Option B, 1a,Te, is a possibility since it has a mass number of 123 and contains the element Te.
A nuclear reaction involves changes to the nucleus of an atom, typically resulting in the formation of a different nuclide. The given nuclear reaction is incomplete, as it does not specify the reactants. However, we do know that the missing nuclide must have a mass number of 123, since this is the mass number of the product. Based on this information, we can eliminate some of the answer choices. Option C, insb, has a mass number of 120, which is not compatible with the mass number of the product. Option D, 111, has a mass number that is too low. Option A, 12:Sb, is not a valid chemical symbol. This leaves options B and E as possibilities. Option B, 1a,Te, has a mass number of 123 and contains the element Te. However, it is not possible to determine the correct answer with certainty without additional information.

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the volume of hydrogen gas at 45.0 C and 699 torr that can be produced by the reaction of 5.66g of zinc with excess sulfuric acid is_____
A. 2.84
B. 2.71x10^-4
C. 3.69x10^4
D. 2.45
E. 0.592

Answers

The volume of hydrogen gas at 45.0°C and 699 torr that can be produced by the reaction of 5.66g of zinc with excess sulfuric acid is A. 2.84 L.

To determine the volume of hydrogen gas produced, we will use the ideal gas law (PV=nRT) and stoichiometry. First, let's convert the given mass of zinc (5.66 g) to moles using its molar mass (65.38 g/mol):

5.66 g Zn × (1 mol Zn / 65.38 g Zn) = 0.0866 mol Zn

The balanced equation for the reaction is:

Zn + H₂SO₄ → ZnSO4 + H₂

From the stoichiometry, 1 mol of Zn produces 1 mol of H₂. Therefore, 0.0866 mol Zn produces 0.0866 mol H₂.

Now, let's convert the temperature to Kelvin and the pressure to atm:

T = 45.0°C + 273.15 = 318.15 K
P = 699 torr × (1 atm / 760 torr) = 0.9197 atm

We can now use the ideal gas law:

PV = nRT
V = nRT / P
V = (0.0866 mol H2)(0.0821 L·atm/mol·K)(318.15 K) / 0.9197 atm

V ≈ 2.84 L

So, the volume of hydrogen gas produced is approximately 2.84 L (option A).

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.What is the molar solubility of Co(OH)2 (Ksp = 1.3x10-15) in a solution buffered at pH 12.30?(b) How does the molar solubility in the buffered solution compare to the molar solubility in water (i.e Co(OH)2 is x times more/less soluble in the buffered solution than in water.)

Answers

The molar solubility of Co(OH)₂ in a solution buffered at pH 12.30 is 2.33x10⁻⁶ M.

(b) The molar solubility of Co(OH)₂ in the buffered solution is about 28 times less than the solubility in pure water.

The solubility of Co(OH)2 in a solution buffered at pH 12.30 can be calculated by considering the equilibrium between the solid and dissolved forms of the compound:

Co(OH)₂(s) ⇌ Co₂+(aq) + 2OH⁻(aq)

At pH 12.30, the hydroxide ion concentration [OH⁻] can be calculated from the following equation:

pH = pKw - pOH

where pKw = 14.00 is the ion product constant of water. Thus:

12.30 = 14.00 - pOH

pOH = 1.70

[OH⁻] = 10^(-pOH) = 0.01995 M

The solubility product expression for Co(OH)₂ can be written as:

Ksp = [Co²⁺][OH⁻]²

At equilibrium, the molar solubility of Co(OH)₂ is equal to [Co²⁺], since the hydroxide ion concentration is much larger than the concentration of Co2+ ions produced by the dissolution of the solid. Therefore:

Ksp = [Co²⁺][OH⁻]² = x*(2x)² = 4x³

where x is the molar solubility of Co(OH)₂ in mol/L. Substituting the value of Ksp gives:

1.3x10⁻¹⁵ = 4x³

x = 2.33x10⁻⁶ M

Therefore, the molar solubility of Co(OH)₂ in a solution buffered at pH 12.30 is 2.33x10⁻⁶ M.

(b) To compare the solubility in the buffered solution to that in pure water, we can calculate the solubility product in pure water using the ionic product of water (Kw = 1.0x10⁻¹⁴):

Co(OH)₂(s) ⇌ Co²⁺(aq) + 2OH⁻(aq)

Ksp = [Co²⁺][OH⁻]² = x*(2x)² = 4x³

Kw = [H⁺][OH⁻] = (x)(2x) = 2x²

Ksp/Kw = 2x

x = (Ksp/Kw)/2 = (1.3x10⁻¹⁵)/(1.0x10⁻¹⁴)/2 = 0.065 M

Therefore, the molar solubility of Co(OH)₂ in the buffered solution is about 28 times less than the solubility in pure water.

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during a physics experiment, helium gas is cooled to a temperature of 13.0 k at a pressure of 9.00×10−2 atm.] What are (a) the mean free path in the gas, (b) the rms speed of the atoms, and (c) the average energy per atom?

Answers

The mean free path in the gas is approximately 5.38 × 10^-7 m, the rms speed of the atoms is approximately 1,242 m/s, and the average energy per atom is approximately 2.84 × 10^-21 J.

To solve this problem, we will use the following equations:

(a) Mean free path = (k * T) / (sqrt(2) * pi * d^2 * P)

(b) Root mean square (rms) speed = sqrt((3 * k * T) / (m))

(c) Average energy per atom = (3/2) * k * T

where:

k is the Boltzmann constant (1.38 × 10^-23 J/K)

T is the temperature in kelvin (13.0 K)

d is the diameter of a helium atom (2.64 × 10^-10 m)

P is the pressure in atm (9.00 × 10^-2 atm)

m is the mass of a helium atom (6.646 × 10^-27 kg)

(a) Mean free path:

Mean free path = (k * T) / (sqrt(2) * pi * d^2 * P)

Mean free path = (1.38 × 10^-23 J/K * 13.0 K) / (sqrt(2) * pi * (2.64 × 10^-10 m)^2 * 9.00 × 10^-2 atm)

Mean free path ≈ 5.38 × 10^-7 m

(b) Root mean square speed:

Root mean square speed = sqrt((3 * k * T) / (m))

Root mean square speed = sqrt((3 * 1.38 × 10^-23 J/K * 13.0 K) / (6.646 × 10^-27 kg))

Root mean square speed ≈ 1,242 m/s

(c) Average energy per atom:

Average energy per atom = (3/2) * k * T

Average energy per atom = (3/2) * 1.38 × 10^-23 J/K * 13.0 K

Average energy per atom ≈ 2.84 × 10^-21 J

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calculate the temperature (in°c) at which pure water would boil at a pressure of 652.4 torr. δhvap = 40.7 kj/mol enter to 1 decimal place.

Answers

Pure water would boil at a temperature of approximately 96.5 °C at a pressure of 652.4 torr.

The boiling point of a liquid depends on the pressure applied to the surface of the liquid. In order to calculate the boiling point of water at a pressure of 652.4 torr,

we can use the Clausius-Clapeyron equation, which relates the vapor pressure of a substance to its enthalpy of vaporization and the temperature:

ln([tex]P_{2}[/tex]/[tex]P_{1}[/tex]) = -(ΔHvap/R) × (1/[tex]T_{2}[/tex] - 1/[tex]T_{1}[/tex])

where[tex]P_{1}[/tex] and [tex]T_{1}[/tex] are the pressure and temperature of a known boiling point (such as the normal boiling point of water at 1 atm, 100 °C), [tex]P_{2}[/tex] is the pressure of the desired boiling point, ΔHvap is the enthalpy of vaporization, R is the gas constant (8.314 J/(mol·K)), and [tex]T_{2}[/tex] is the desired boiling point temperature in Kelvin.

Substituting the given values and converting pressure from torr to atm, we get:

ln(652.4/760) = -(40700 J/mol / (8.314 J/(mol·K))) × (1/[tex]T_{2}[/tex] - 1/373.15)

Solving for [tex]T_{2}[/tex], we get:

[tex]T_{2}[/tex] = 40700 J/mol / (8.314 J/(mol·K) × [ln(652.4/760) + 1/373.15])

[tex]T_{2}[/tex]= 369.6 K

Converting from Kelvin to Celsius, we get:

[tex]T_{2}[/tex] = 369.6 K - 273.15

[tex]T_{2}[/tex] ≈ 96.5 °C

Therefore, pure water would boil at a temperature of approximately 96.5 °C at a pressure of 652.4 torr. Rounded to one decimal place, the answer is 96.5 °C.

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the reagent strip test for ketones may detect the urinary presence of:

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The reagent strip test for ketones may detect the urinary presence of acetoacetate, beta-hydroxybutyrate, and acetone.

These are the three ketone bodies that can be produced in the body during a state of ketosis, which is a metabolic state in which the body uses fat for energy instead of carbohydrates. Ketosis can occur in individuals who follow a low-carbohydrate diet, have uncontrolled diabetes, or are fasting. The presence of ketones in the urine can indicate that the body is in a state of ketosis and may be a sign of uncontrolled diabetes or other metabolic disorders. The reagent strip test works by detecting the presence of nitroprusside, a chemical that reacts with ketones to produce a color change on the strip. The intensity of the color change can be used to determine the level of ketones present in the urine. The reagent strip test for ketones may detect the urinary presence of acetoacetate, beta-hydroxybutyrate, and acetone. It is important to note that the reagent strip test for ketones is not a diagnostic tool and should be used in conjunction with other tests and medical evaluations to determine the underlying cause of ketosis.

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linear polystyrene has phenyl groups that are attached to alternate, not adjacent, carbons of the polymer chain. refer to the answer to question four (4) to explain the mechanism basis for this fact

Answers

The mechanism of the polymerization reaction, more precisely the characteristics of the monomer and the reaction circumstances, can be used to explain why phenyl groups in linear polystyrene are bonded to alternate, not neighbouring, carbons of the polymer chain.

Styrene (C8H8), a vinyl monomer, is used in the polymerization step that creates polystyrene. A free radical initiator is often employed to start the reaction and spread the growth of the polymer chain in a conventional free radical mechanism. Each styrene monomer's vinyl group (CH=CH2) adds to the vinyl group of another styrene monomer throughout the polymerization process. As a result, a linear chain of repeating units connected by covalent bonds is created. The vinyl group of the styrene monomer is joined to the phenyl group (C6H5) in the case of polystyrene. As a result, during the polymerization process, the phenyl group is absorbed into the polymer chain. The phenyl groups in the polystyrene chain are situated at alternate carbons because they are joined to the vinyl group, which is situated at a different carbon in the styrene monomer. This is due to the head-to-tail nature of the polymerization reaction, in which the vinyl group of one monomer combines with the vinyl group of another monomer in a way that causes the phenyl groups to be arranged along the polymer chain in an alternating pattern. Consequently, in linear polystyrene, the location of the phenyl groups is a result of the styrene monomer's makeup and the polymerization reaction's process.

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The bond length in the fluorine molecule F2 is 1.28 A, what is the atomic radius of chlorine?
a. 0.77 A

b. 0.64 A

c. 0.22 A

d. 1.21 A

Answers

Answer:

0.64A

Explanation:

There is a well-known relationship between the bond length of a diatomic molecule and the atomic radius of its constituent atoms, known as the covalent radius. Specifically, the covalent radius of an atom is half the bond length between two identical atoms in a diatomic molecule.

Therefore, to determine the atomic radius of chlorine (Cl), we can use the bond length of fluorine (F2) and the fact that the two atoms in F2 are identical.

Since the bond length of F2 is given as 1.28 A, the covalent radius of fluorine is 1.28/2 = 0.64 A.

Since both fluorine and chlorine are halogens, they have similar electronic configurations and form similar covalent bonds. Therefore, we can use the covalent radius of fluorine as an estimate for the covalent radius of chlorine.

Thus, the atomic radius of chlorine is approximately 0.64 A

Calculate the molarity of a solution made by adding 0.126 g of ammonium acetate to enough water to make 250.0 mL of solution.
A. 3.70 x 10−3 M
B. 5.30 x 10−3 M
C. 6.54 x 10−3 M
D. 8.12 x 10−3 M
E. 8.25 x 10−3 M

Answers

The molarity of the solution is 5.30 x 10−3 M (option b).

To calculate the molarity of a solution, we need to know the number of moles of solute present in a given volume of solution.

First convert the mass of ammonium acetate (0.126 g) to moles using its molar mass (77.08 g/mol).

This gives us 0.00163 moles of ammonium acetate. Next, we need to convert the volume of the solution (250.0 mL) to liters (0.250 L).

Finally, we divide the number of moles of ammonium acetate by the volume of the solution in liters to get the molarity. The morality is 5.30 x 10−3 M, which is option B.

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The molarity is obtained by dividing the number of moles of ammonium acetate by the litres of the solution's volume. Option B has a morality of 5.30 x 103 M.

We need to know how many moles of solute there are in a specific volume of solution in order to calculate the molarity of a solution.

Using the molar mass of ammonium acetate (77.08 g/mol), first convert the mass of ammonium acetate (0.126 g) to moles.

We now have 0.00163 moles of ammonium acetate as a result. The volume of the solution (250.0 mL) must then be converted to litres (0.250 L).

The molarity is obtained by dividing the number of moles of ammonium acetate by the litres of the solution's volume. Option B has a morality of 5.30 x 103 M.

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. Calculate the pH of natural rainwater at 25 °C, given that the CO2 concentration in air is 450 ppm (present level), and that for carbon dioxide the Henry s Law constant K1=3.4*10-mol/I/atm and K, for H2CO3 has a value of 4.5*10-7 mol-L. Assume that the following reaction is the only significant source of acidity; H2CO3 + HCO3 + H+ 2. Calculate the pH of natural rainwater in equilibrium with CO2 at an atmospheric concentration of 380 ppmy. KH = 0.039 M atm Kai - 4.5 x 10-2 K 2 = 4.7 x 10-11

Answers

The pH of natural rainwater at 25°C in equilibrium with CO2 at an atmospheric concentration of 380 ppm is approximately 5.62.

What is the pH of rainwater in equilibrium with CO2?

The pH of natural rainwater at 25°C in equilibrium with CO2 at an atmospheric concentration of 380 ppm can be calculated using the equilibrium reactions involving carbon dioxide.

One significant reaction is the equilibrium between carbonic acid (H2CO3) and bicarbonate ion (HCO3-), as represented by the equation H2CO3 + HCO3- ⇌ H+ + HCO3-.

The Henry's Law constants and the given CO2 concentration provide the necessary information to determine the concentration of H+ ions, which is related to the pH. By applying the equilibrium constant expression and solving for the H+ concentration, we can convert it to pH. In this case, the resulting pH of the rainwater is approximately 5.62.

The pH of rainwater is an important parameter as it indicates the acidity or alkalinity of the water and helps evaluate its environmental impact and potential effects on ecosystems.

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complete combustion of 8.90 g of a hydrocarbon produced 27.0 g of co2 and 13.8 g of h2o. what is the empirical formula for the hydrocarbon? insert subscripts as necessary.

Answers

A complete combustion of 8.90 g of hydrocarbon will produced 27.0 g of CO₂ and 13.8 g of H₂O. Then, the empirical formula for the hydrocarbon is CH₂.

To determine the empirical formula of the hydrocarbon, we need to find the moles of carbon and hydrogen in the given compounds.

From the given data,

Mass of CO₂ produced = 27.0 g

Mass of H₂O produced = 13.8 g

Mass of hydrocarbon consumed = 8.90 g

Using the molar masses, we can convert the masses to moles;

Moles of CO₂ = 27.0 g / 44.01 g/mol = 0.613 mol

Moles of H₂O = 13.8 g / 18.02 g/mol = 0.766 mol

Moles of hydrocarbon = 8.90 g / molar mass

Next, we need to find the ratio of moles of carbon and hydrogen in the hydrocarbon. For this, we can use the following equations;

Moles of carbon = Moles of CO₂

Moles of hydrogen =0.5 x Moles of H₂O

Substituting the values, we get;

Moles of carbon = 0.613 mol

Moles of hydrogen = 0.5 x 0.766 mol

= 0.383 mol

Now we need to find the empirical formula by dividing each number of moles by the smallest number of moles;

Empirical formula = C0.613/0.383H1.00

Multiplying both sides by 2, we get;

Empirical formula = C₁.60H₂.00

Therefore, the empirical formula for the hydrocarbon is CH₂.

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calculate the reactance of, and rms current in, a 260-mh radio coil connected to a 240-v (rms) 10.0-khz ac line. ignore resistance. Calculate the reactance of the coil. Express your answer to three significant figures and include the appropriate units. Calculate rms current in the coil. Express your answer to three significant figures and include the appropriate units.

Answers

The reactance of the coil is approximately 6.16 kΩ. The rms current in the coil is approximately 39.2 mA.


To find the reactance of the coil, we use the formula Xl = 2πfL, where Xl is the reactance, f is the frequency, and L is the inductance. Substituting the given values, we get Xl = 2π(10.0 kHz)(260 mH) = 6.16 kΩ. This is the reactance of the coil.

To find the rms current in the coil, we use the formula Irms = Vrms/Xl, where Irms is the rms current, Vrms is the rms voltage, and Xl is the reactance. Substituting the given values, we get Irms = (240 V)/(6.16 kΩ) = 39.2 mA. This is the rms current in the coil.

The reactance of the coil represents the opposition to the flow of current in the coil due to the inductance of the coil. The higher the inductance and frequency, the higher the reactance. In this case, the reactance is relatively high, which means that the coil will not allow a significant amount of current to flow through it.

The rms current in the coil represents the effective value of the alternating current that flows through the coil. This current will produce a magnetic field around the coil that can be used for various applications, such as in radio receivers and transmitters.

Overall, the reactance and rms current in the coil are important parameters that are used to analyze and design electronic circuits.

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Identify the type of bonding within each substance. Co(s) CoCl,(s) covalent metallic ionic covalent ionic metallic CC1,1) covalent metallic ionic

Answers

The type of bonding within each substance is:

Co(s) - metallic bonding
CoCl,(s) - ionic bonding
CCl4(s) - covalent bonding


Co(s) is a metal and it forms metallic bonding, where the atoms are held together by a sea of electrons that move freely between the atoms.

CoCl,(s) is an ionic compound, where Co and Cl ions are held together by electrostatic forces of attraction between positively and negatively charged ions.

CCl4(s) is a covalent compound, where the atoms share electrons to form a stable molecule.

In summary, the type of bonding within each substance is determined by the properties of the atoms or ions that are involved, and it affects the physical and chemical properties of the substances.

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Consider the titration of a 60.0 mL of 0.317 M weak acid HA (Ka = 4.2 x 10) with 0.400 M KOH. What is the pH before any base has been added? Consider the titration of a 60.0 mL of 0.317 M weak acid HA (Ka = 4.2 x 10) with 0.400 M KOH. After 30.0 mL of KOH have been added, what would the pH of the solution be? Consider the titration of a 60.0 mL of 0.317 M weak acid HA (Ka = 4.2 x 10) with 0.400 M KOH. After 75.0 mL of KOH have been added, what would the pH of the solution be?

Answers

The pH of the weak acid solution before titration is 3.39. After the addition of 30.0 mL of 0.133 M KOH, the pH of the solution is 6.25, and after the addition of 75.0 mL of KOH, the pH of the solution is 6.80.

The steps for each part of the question:

1. Calculate the initial concentration of [H⁺] ions before any base has been added:

[H+] = sqrt(Ka x [HA]) = sqrt(4.2 x 10⁻⁷ x 0.317) = 4.06 x 10⁻⁴ M

pH = -log[H⁺] = -log(4.06 x 10⁻⁴) = 3.39

2. After 30.0 mL of KOH have been added, the number of moles of KOH is:

moles of KOH = Molarity x Volume = 0.400 x 0.0300 = 0.0120 moles

moles of HA remaining = initial moles - moles of KOH added = (0.317 x 0.0600) - 0.0120 = 0.01602 moles

moles of A⁻ formed = moles of KOH added = 0.0120 moles

Concentration of A⁻ = moles of A-/total volume = (0.0120/0.0900) = 0.133 M

Concentration of HA = (0.01602/0.0900) = 0.178 M

Ka = [H⁺][A⁻]/[HA]

[H+] = Ka x [HA]/[A⁻] = 4.2 x 10⁻⁷ x (0.178)/(0.133) = 5.60 x 10⁻⁷ M

pH = -log[H⁺] = -log(5.60 x 10⁻⁷) = 6.25

3. After 75.0 mL of KOH have been added, the number of moles of KOH is:

moles of KOH = Molarity x Volume = 0.400 x 0.0750 = 0.0300 moles

moles of HA remaining = initial moles - moles of KOH added = (0.317 x 0.0600) - 0.0300 = 0.01142 moles

moles of A- formed = moles of KOH added = 0.0300 moles

Concentration of A- = moles of A-/total volume = (0.0300/0.135) = 0.222 M

Concentration of HA = (0.01142/0.135) = 0.0846 M

Ka = [H⁺][A⁻]/[HA]

[H+] = Ka x [HA]/[A⁻] = 4.2 x 10⁻⁷ x (0.0846)/(0.222) = 1.60 x 10⁻⁷ M

pH = -log[H⁺] = -log(1.60 x 10⁻⁷) = 6.80

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considering the following reaction between magnesium metal and gaseous chlorine. what mass (g) of chlorine would be required to react completely with 12.15 g of magnesium?

Answers

To determine the mass of chlorine required to react completely with 12.15 g of magnesium, we need to use the balanced chemical equation for the reaction:

Mg + Cl2 → MgCl2

From this equation, we can see that 1 mole of magnesium reacts with 1 mole of chlorine to produce 1 mole of magnesium chloride. The molar mass of magnesium is 24.31 g/mol, and the molar mass of chlorine is 35.45 g/mol.

We can use the given mass of magnesium and its molar mass to calculate the number of moles present:

moles of Mg = mass of Mg / molar mass of Mg
moles of Mg = 12.15 g / 24.31 g/mol
moles of Mg = 0.500 mol

Since the stoichiometry of the reaction is 1:1, we know that 0.500 moles of chlorine are required to react completely with the given amount of magnesium. We can convert this to grams of chlorine using its molar mass:

mass of Cl2 = moles of Cl2 x molar mass of Cl2
mass of Cl2 = 0.500 mol x 35.45 g/mol
mass of Cl2 = 17.72 g

Therefore, 17.72 g of chlorine would be required to react completely with 12.15 g of magnesium.

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3) determine the equilibrium constant for the following reaction at 498 k. circle your answer. 2 hg(g) o2(g) → 2 hgo(s) δh° = -304.2 kj; δs° = -414.2 j/k k=?

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To determine the equilibrium constant (K) for the following reaction at 498 K:
2 Hg(g) + O₂(g) → 2 HgO(s)
We need to use the Gibbs free energy equation:
ΔG° = -RTlnK

Where ΔG° is the change in Gibbs free energy, R is the universal gas constant (8.314 J/mol·K), T is the temperature in Kelvin (498 K), and lnK is the natural logarithm of the equilibrium constant.
First, we need to calculate the ΔG° using the provided ΔH° (-304.2 kJ) and ΔS° (-414.2 J/K):
ΔG° = ΔH° - TΔS°
Convert ΔH° to J/mol (1 kJ = 1000 J):
ΔH° = -304.2 kJ * 1000 = -304200
Now, calculate ΔG°:
ΔG° = -304200 J - (498 K * -414.2 J/K) = -304200 J + 206170.8 J = -98029.2 J
Now, use the Gibbs free energy equation to find K:
-98029.2 J = - (8.314 J/mol·K)(498 K) lnK
Divide both sides by -4144.572 J/mol:
23.645 = lnK
Now, solve for K by finding the exponential of both sides:
K ≈ e²³⁶⁴⁵≈ 2.24 x 10¹⁰
Therefore, the equilibrium constant for the given reaction at 498 K is approximately 2.24 x 10^10.

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what is the solubility of lead chloride in pure water? (how many moles of pbcl2 could be completely dissolved in one liter

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The solubility of lead chloride (PbCl2) in pure water is relatively low. At room temperature (25°C), approximately 0.0102 moles of PbCl2 can be completely dissolved in one liter of water.

This value may slightly vary depending on temperature, but overall, lead chloride remains sparingly soluble in water. It is important to note that the solubility of lead chloride can vary depending on temperature, pH, and the presence of other ions in the solution.

Additionally, it is crucial to handle lead compounds with care as they can be toxic to human health and the environment. Proper precautions should be taken when working with lead chloride to minimize exposure and prevent contamination.

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The solubility of PbCl2 in pure water is approximately 0.0016 moles per liter. This means that in one liter of pure water, 0.0016 moles of PbCl2 can dissolve before the solution becomes saturated and any additional PbCl2 will precipitate out of the solution.

The solubility of PbCl2 increases with increasing temperature, as well as with the presence of certain ions, such as chloride ions, which can form soluble complexes with Pb2+ ions.

The presence of certain other ions, such as sulfate ions, can decrease the solubility of PbCl2 due to the formation of insoluble lead sulfate (PbSO4) precipitates.

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how many ml of a .150m na2s solution are needed to completely react 18.5 ml of .225m nicl2 solution? a) 27.0 mL. b) 4.16 mL. c) 6.24 mL.

Answers

27.0 mL of a .150m Na[tex]_2[/tex]S solution is needed to completely react with 18.5 ml of 225m NiCl[tex]_2[/tex] solution. The correct answer is option c) 27.0 mL.

The balanced chemical equation for the reaction between Na[tex]_2[/tex]S and [tex]NiCl_2[/tex]  is:

Na[tex]_2[/tex]S + NiCl[tex]_2[/tex]  → 2 NaCl + NiS

From the balanced equation, we can see that one mole of NiCl[tex]_2[/tex]  reacts with one mole of Na[tex]_2[/tex]S to produce one mole of NiS.

First, let's calculate the number of moles of NiCl[tex]_2[/tex]  in 18.5 mL of 0.225 M solution:

moles of NiCl[tex]_2[/tex]  = concentration * volume in liters

moles of NiCl[tex]_2[/tex]  = 0.225 mol/L * 0.0185 L

moles of NiCl[tex]_2[/tex]  = 0.00416 mol

Since one mole of NiCl[tex]_2[/tex] reacts with one mole of Na[tex]_2[/tex]S, we need 0.00416 moles of Na[tex]_2[/tex]S to completely react with the NiCl[tex]_2[/tex] .

Now, let's calculate the volume of 0.150 M Na[tex]_2[/tex]S solution that contains 0.00416 moles of Na[tex]_2[/tex]S:

moles of Na[tex]_2[/tex]S = concentration * volume in liters

0.00416 mol = 0.150 mol/L * volume in liters

volume in liters = 0.00416 mol / 0.150 mol/L

volume in liters = 0.0277 L

Finally, we convert the volume to milliliters:

volume in mL = 0.0277 L * 1000 mL/L

volume in mL = 27.7 mL

Therefore, the volume of a 0.150 M Na[tex]_2[/tex]S solution that is needed to completely react with 18.5 mL of a 0.225 M NiCl[tex]_2[/tex] solution is approximately 27.7 mL.

Since the answer choices are given in mL, we round to the nearest hundredth and select option (a) 27.0 mL.

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given the following reaction at equilibrium, if kc = 6.24 x 105 at 230.0 °c, kp = ________. 2 no (g) o2 (g) (g)

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At equilibrium, the ratio of the product concentrations to reactant concentrations is constant, and this is given by the equilibrium constant, Kc. value of Kp for the given reaction at 230.0°C is 2.57 x 10^7 atm.

The equilibrium constant, Kp, is related to Kc by the equation:[tex]Kp = Kc(RT)^(∆n)[/tex] where R is the gas constant, T is the temperature in Kelvin, and ∆n is the difference in the number of moles of gas molecules between the products and reactants.

In this case, the value of Kc is given as C at 230.0°C. To calculate Kp, we need to know the value of ∆n. From the balanced chemical equation, we can see that there are two moles of gas molecules on the reactant side and two moles of gas molecules on the product side. Therefore, ∆n = 2 - 2 = 0.

At 230.0°C, the value of the gas constant, R, is 0.08206 L⋅atm/mol⋅K. Converting the temperature to Kelvin, we get: T = 230.0°C + 273.15 = 503.15 K

Substituting the values into the equation, we get:

[tex]Kp = Kc(RT)^(∆n) = 6.24 x 10^5 (0.08206 L⋅atm/mol⋅K × 503.15 K)^0Kp = 6.24 x 10^5 × 41.15[/tex]

[tex]Kp = 2.57 x 10^7 atm[/tex]

Therefore, the value of Kp for the given reaction at 230.0°C is 2.57 x 10^7 atm. This value indicates that the reaction strongly favors the formation of NO2 at this temperature and pressure.

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Calculate the percent yield of the aldol condensation-dehydration reaction.
I did the following
Put 0.8 mL aldehyde, 0.2 mL ketone, 4 mL ethanol, 3 mL of 2M sodium hydroxide in a flask. Then swirled it for 15 min. Then I added 6 mL ethanol and 4 mL of 4% acetic acid. I put the solution on ice and crystals formed. I ended up with 0.305 g of product. Please show me how to calcualte my percent yield for my product.
ketone= acetone (0.791 g/ mL)
aldehyde= 4-Methylbenzaldehyde (1.019 g/ m

Answers

The percent yield of the aldol condensation-dehydration reaction is 69.2%.

To calculate the percent yield of the aldol condensation-dehydration reaction, we need to compare the actual yield of the product with the theoretical yield that we would expect based on the amounts of starting materials used. The balanced chemical equation for the reaction is:
2 aldehyde + 2 ketone + base + ethanol → aldol + water + salt
From the given information, we used 0.8 mL of aldehyde (density = 1.019 g/mL) and 0.2 mL of ketone (density = 0.791 g/mL), which correspond to masses of 0.8152 g and 0.1582 g, respectively. The molar mass of the aldehyde is 120.15 g/mol, and the molar mass of the ketone is 58.08 g/mol. Therefore, we have:
moles of aldehyde = 0.8152 g / 120.15 g/mol = 0.00679 mol
moles of ketone = 0.1582 g / 58.08 g/mol = 0.00272 mol
Assuming complete conversion of the starting materials, the theoretical yield of the product can be calculated based on the limiting reagent (the ketone in this case). The molar ratio of ketone to aldol in the balanced equation is 1:1, so we would expect to obtain 0.00272 mol of product. The molar mass of the aldol is 162.23 g/mol, so the theoretical yield in grams is:
theoretical yield = 0.00272 mol * 162.23 g/mol = 0.441 g
Therefore, the percent yield of the reaction is:
percent yield = (actual yield / theoretical yield) * 100%
percent yield = (0.305 g / 0.441 g) * 100%
percent yield = 69.2%
So, the percent yield of the aldol condensation-dehydration reaction is 69.2%.
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calculate the concentration of curcumin (m) that you isolated from turmeric based on your calibration curve from part a. what is the concentration of the diluted extract

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Without knowing the specifics of the experiment or the calibration curve, it is impossible to provide a calculation of the concentration of curcumin that was isolated from turmeric or the concentration of the diluted extract.

The concentration of curcumin that was isolated from turmeric can be determined by measuring its absorbance using a spectrophotometer and comparing it to the standard curve generated from known concentrations of curcumin. The concentration of the diluted extract can be calculated using the dilution equation, which states that the concentration of the diluted solution is equal to the concentration of the original solution multiplied by the dilution factor. The dilution factor is the ratio of the volume of the original solution to the total volume of the diluted solution.

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What is the isoelectric point of glutamic acid (pka of α-co2h, 2.10; pka of β-co2h, 4.07; ph of α-nh2, 9.47)?

Answers

The isoelectric point of glutamic acid is approximately 5.79.

The isoelectric point (pI) of an amino acid is the pH at which the c acid has a net neutral charge. To calculate the pI of glutamic acid, we need to determine the pH at which the α-carboxyl group (pKa 2.10) and β-carboxyl group (pKa 4.07) are deprotonated, and the α-amino group (pH 9.47) is protonated.
Since the α-carboxyl group has the lowest pKa, it will be the first to deprotonate. At a pH higher than 2.10, the α-carboxyl group will be negatively charged (-COO-). However, the β-carboxyl group will still be protonated (COOH) and the α-amino group will also be protonated (NH3+).
pI = (pKa1 + pKa2) / 2 = (2.10 + 4.07) / 2 = 3.085
The isoelectric point of glutamic acid is 3.085, which is the pH at which the amino acid has an equal number of positive and negative charges.
The isoelectric point (pI) of glutamic acid can be calculated using the pKa values provided. Glutamic acid has three ionizable groups: α-COOH, β-COOH, and α-NH2. The pI is the pH at which the molecule carries no net charge.
To calculate the pI, you need to find the average of the pKa values that correspond to the protonation/deprotonation equilibria around the zwitterionic form. In the case of glutamic acid, these are the pKa values for α-COOH (2.10) and α-NH2 (9.47).
pI = (pKa of α-COOH + pKa of α-NH2) / 2
pI = (2.10 + 9.47) / 2
pI = 11.57 / 2
pI ≈ 5.79

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when 200. ml of 1.50 × 10-4 m hydrochloric acid is added to 135 ml of 1.75 × 10-4 m mg(oh)2, the resulting solution will be

Answers

Answer:

the answer and the explanation is on the picture hope you understood

Explanation:

The resulting solution will be a dilute solution of [tex]MgCl_2[/tex] with a concentration of [tex]3.33 \times 10^{-5} M[/tex].

To determine the nature of the resulting solution, we can use the following approach:

Step 1: Compose a balanced chemical equation for the reaction of magnesium hydroxide and hydrochloric acid (HCl).

[tex]2HCl + Mg(OH)_2 \rightarrow MgCl_2 + 2H_2O[/tex]

Count the moles of HCl and magnesium hydroxide in the solution in step two.

Number of HCl moles = (concentration of HCl) × (volume of HCl)

= ([tex]1.50 \times 10^{-4} M[/tex]) × (0.200 L) = [tex]3.00 \times 10^{-5[/tex] moles

Number of moles of Mg(OH)2 = (concentration of Mg(OH)2) × (volume of Mg(OH)2)

= ([tex]1.75 \times 10^{-4} M[/tex]) × (0.135 L) = [tex]2.36 \times 10^{-5[/tex] moles

Step 3 - Identify the reaction's limiting reagent. The amount of the product created is determined by the reactant that is totally consumed or the limiting reagent. We compare the moles of each reactant and utilize the stoichiometry of the balanced equation to determine the limiting reagent. By looking at the equation in its whole, we can observe that 2 moles of HCl and 1 mole of magnesium hydroxid react:

One mole of magnesium hydroxide and two moles of HCl react.

[tex]3.00 \times 10^{-5[/tex] moles of HCl react with (1/2) × [tex]3.00 \times 10^{-5} = 1.50 \times 10^{-5[/tex]moles of [tex]Mg(OH)_2[/tex]

[tex]2.36 \times 10^{-5[/tex] moles of [tex]Mg(OH)_2[/tex] is less than [tex]1.50 \times 10^{-5[/tex] moles of [tex]Mg(OH)_2[/tex], so [tex]Mg(OH)_2[/tex] is the limiting reagent.

Step 4: Calculate the amount of [tex]MgCl_2[/tex] form. From the balanced equation, we know that 1 mole of [tex]Mg(OH)_2[/tex] produces 1 mole of [tex]MgCl_2[/tex]:

1 mole of [tex]Mg(OH)_2[/tex] produces 1 mole of [tex]MgCl_2[/tex]

[tex]1.50 \times 10^{-5[/tex]moles of [tex]Mg(OH)_2[/tex] produces [tex]1.50 \times 10^{-5[/tex] moles of [tex]MgCl_2[/tex]

Step 5: Calculate the concentration of [tex]MgCl_2[/tex] in the resulting solution:

Concentration of [tex]MgCl_2[/tex] = (moles of [tex]MgCl_2[/tex]) / (total volume of solution) = ([tex]1.50 \times 10^{-5[/tex] moles) / (0.200 L + 0.135 L) = [tex]3.33 \times 10^{-5[/tex] M

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which pure molecular substance will have the lowest vapor pressure at 25 oc? data sheet and periodic table ch3oh ch3ch2oh ch3ch2ch2oh ch3ch2ch2ch2oh

Answers

The pure molecular substance with the lowest vapor pressure at 25°C is CH₃(CH₂)₃OH (1-pentanol).

The vapor pressure of a substance depends on the strength of its intermolecular forces. The stronger the intermolecular forces, the lower the vapor pressure. The intermolecular forces in a molecule depend on its size and shape, as well as the types of atoms and functional groups present.

Out of the given options, 1-pentanol (CH₃(CH₂)₃OH) has the largest molecular size and longest carbon chain, making it the most polar and having the strongest intermolecular forces of attraction.

Therefore, it has the lowest vapor pressure at 25°C compared to the other molecules. On the other hand, methanol (CH₃OH) has the smallest molecular size and the weakest intermolecular forces, making it the most volatile and having the highest vapor pressure at 25°C.

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In which compound does hydrogen form an ionic bond as a proton?
a) H2O
b) CH3COOH (acetic acid)
c) CH3CH2OH (ethanol)

Answers

In H2O, the hydrogen atom donates its electron to the oxygen atom, which has a higher electronegativity, resulting in the formation of an ionic bond.

Hydrogen typically does not form an ionic bond as a proton, as it only has one electron to donate and form a bond with. However, in certain circumstances, hydrogen can form an ionic bond when it donates its electron to a more electronegative element, such as oxygen or fluorine. In the given compounds, H2O is the only compound where hydrogen forms an ionic bond as a proton. In H2O, the hydrogen atom donates its electron to the oxygen atom, which has a higher electronegativity, resulting in the formation of an ionic bond. Acetic acid (CH3COOH) and ethanol (CH3CH2OH) both contain covalent bonds, where electrons are shared between atoms.
Ionic bonds are formed when electrons are transferred from one atom to another, resulting in the formation of positively and negatively charged ions that attract each other. Hydrogen typically does not form an ionic bond as a proton, as it only has one electron to donate and form a bond with. However, in some cases, hydrogen can form an ionic bond by donating its electron to a more electronegative element. For example, in the compound H2O (water), the hydrogen atom donates its electron to the oxygen atom, which has a higher electronegativity, resulting in the formation of an ionic bond. This is because oxygen attracts electrons more strongly than hydrogen does, creating an electrostatic attraction between the two atoms. Acetic acid (CH3COOH) and ethanol (CH3CH2OH) both contain covalent bonds, where electrons are shared between atoms. Covalent bonds occur when two atoms share electrons to satisfy their valence shell electron requirements. Overall, hydrogen usually forms covalent bonds rather than ionic bonds.

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In an atom, how many electrons can have the quantum number designations n=3, ml=0, ms=1/2?

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In an atom only one electron can have the quantum number designations n=3, ml=0, ms=1/2 , as per the Pauli exclusion principle.

In an atom, the quantum numbers n, ml, and ms are used to describe the energy, orientation, and spin of electrons. The quantum number n specifies the energy level or shell of the electron, ml specifies the orientation of the electron in space, and ms specifies the spin of the electron.

For the given quantum number designations n=3, ml=0, ms=1/2, we know that the electron is in the third energy level or shell (n=3), and it is oriented along the z-axis (ml=0). The ms value of 1/2 indicates that the electron has a positive spin.

According to the Pauli exclusion principle, no two electrons in an atom can have the same set of quantum numbers. Therefore, there can be only one electron with the given set of quantum number designations in an atom.

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In an atom, only two electrons can have the quantum number designations n=3, ml=0, ms=1/2.

An electron's state in an atom or molecule is described by a set of four numbers called quantum number. These values are used to identify an electron's energy, position, and orientation within an atom. The primary quantum number (n), azimuthal quantum number (l), magnetic quantum number (ml), and spin quantum number (ms) are the four quantum numbers. The electron's energy level is described by the main quantum number, the orbital's form by the azimuthal quantum number, the orbital's orientation in space by the magnetic quantum number, and the electron's spin orientation by the spin quantum number. Each electron in an atom is individually identified by a combination of these four quantum numbers.

1. The principal quantum number (n) determines the energy level and size of the orbital. n=3 refers to the third energy level.
2. The magnetic quantum number (ml) specifies the shape of the orbital. ml=0 refers to an s-orbital (spherical shape).
3. The spin quantum number (ms) indicates the electron's spin. ms=1/2 refers to one of the two possible spins an electron can have (either +1/2 or -1/2).

Since we are considering n=3 and ml=0, this corresponds to the 3s orbital. Each s-orbital can accommodate a maximum of two electrons with opposite spins. However, since ms=1/2 is specified, we are only considering electrons with that specific spin. Therefore, there can be only one electron in the 3s orbital with the quantum number designations n=3, ml=0, ms=1/2.

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calculate [oh−] for this strong base solution: 8.2×10−2 m koh .

Answers

The [OH-] in the 8.2×10^-2 M KOH solution which is a strong base, is 8.2×10^-2 M.

To calculate the [OH-] for the strong base solution with a concentration of 8.2×10^-2 M KOH, follow these steps:

1. Identify the base: In this case, the base is KOH (potassium hydroxide), a strong base that completely dissociates in water.

2. Write the dissociation equation: When KOH dissociates in water, it forms potassium ions (K+) and hydroxide ions (OH-). The equation is:
  KOH → K+ + OH-

3. Determine the concentration of OH-: Since KOH is a strong base and completely dissociates, the concentration of OH- ions in the solution will be equal to the concentration of KOH.

In this case, the concentration of KOH is given as 8.2×10^-2 M, so the concentration of OH- ions in the solution will also be 8.2×10^-2 M.

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What is the pressure, in kilopascals, of 2.50 L of NO2 containing 1.35 mol at 47.0°C?

Answers

The pressure of 2.50 L of NO2 containing 1.35 mol at 47.0°C is approximately 36.196 kilopascals (kPa).

The pressure of a gas can be determined using the ideal gas law equation, which states that PV = nRT, where P is the pressure, V is the volume, n is the number of moles, R is the gas constant, and T is the temperature in Kelvin. To find the pressure of the NO2 gas, we need to convert the given temperature from Celsius to Kelvin. Adding 273.15 to the Celsius temperature gives us:

47.0°C + 273.15 = 320.15 K

Next, we can plug the values into the ideal gas law equation:

P * 2.50 L = 1.35 mol * (8.314 J/(mol*K)) * 320.15 K

Simplifying the equation:

P = (1.35 mol * 8.314 J/(mol*K) * 320.15 K) / 2.50 L

P = 36.196 kPa

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