At a particular temperature, the solubility of in₂(so₄)₃ in water is 0.0077 m.
What is the value of Ksp?

Answers

Answer 1

The value of the solubility product constant (Ksp) for In₂(SO₄)₃ at the given temperature is approximately 1.48 × 10⁻⁵.

To determine the value of the solubility product constant (Ksp) for In₂(SO₄)₃, we need to use the given solubility information.

The balanced equation for the dissolution of In₂(SO₄)₃ in water is:

In₂(SO₄)₃(s) ⇌ 2In³⁺(aq) + 3SO₄²⁻(aq)

The expression for the solubility product constant (Ksp) is:

Ksp = [In³⁺]²[SO₄²⁻]³

Given that the solubility of In₂(SO₄)₃ in water is 0.0077 M, we can assume that the concentration of both In³⁺ and SO₄²⁻ ions is equal to this value.

Substituting the values into the Ksp expression:

Ksp = (0.0077)²(0.0077)³

    = 0.0077² * 0.0077³

    ≈ 1.48 × 10⁻⁵

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Related Questions

The equilibrium constant for the formation of hydrogen iodide from hydrogen and iodine, H2(g) + 12(s) — 2 HI(g), is 1.72 x 10-2 at 700 K. Which statement regarding this equilibrium is definitely true? O The rate of the reverse reaction is slower than the rate of the forward reaction. O Equilibrium lies far to the left. O The reaction is product favored. O The reaction has stopped. O The reactants and products reach equilibrium quickly.

Answers

The statement regarding this equilibrium that is definitely true is: the equilibrium lies far to the left. Since the equilibrium constant (Kc) value is less than one, it indicates that the concentration of reactants (H2 and I2) is much higher than the concentration of products (2HI). Therefore, the equilibrium lies far to the left.

The equilibrium constant for the formation of hydrogen iodide from hydrogen and iodine,

H2(g) + I2(s) — 2 HI(g), is 1.72 x 10-2 at 700 K.

The statement regarding this equilibrium that is definitely true is: the equilibrium lies far to the left.What is an Equilibrium Constant?The equilibrium constant (Kc) is the ratio of products to reactants at equilibrium and can be used to determine the composition of the system at equilibrium. The value of Kc indicates whether a reaction produces more products or reactants and how far to the right or left the reaction goes at equilibrium. It is used to determine if a reaction is product-favored, reactant-favored, or neither (equal amount of products and reactants).What is a Reaction Quotient?A reaction quotient (Q) is a measure of the relative amounts of products and reactants present in a reaction mixture at a given point in time. A reaction quotient is a constant that depends on the concentration of reactants and products in a solution. The relationship between the reaction quotient and the equilibrium constant (Kc) is given by the expression Qc = Kc.What is the direction of a reaction at equilibrium?If Q < Kc, the reaction will proceed in the forward direction until equilibrium is reached. If Q > Kc, the reaction will proceed in the reverse direction until equilibrium is reached. If Q = Kc, the system is at equilibrium, and no net reaction occurs.What is true about the statement?The equilibrium constant for the formation of hydrogen iodide from hydrogen and iodine,

H2(g) + I2(s) — 2 HI(g), is 1.72 x 10-2 at 700 K.

The statement regarding this equilibrium that is definitely true is: the equilibrium lies far to the left. Since the equilibrium constant (Kc) value is less than one, it indicates that the concentration of reactants (H2 and I2) is much higher than the concentration of products (2HI). Therefore, the equilibrium lies far to the left.

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If 6.51 g of copper is reacted with 28.4 g of silver nitrate, the products will be copper (II) nitrate and silver metal. What is the theoretical mass of silver that will be produced? If the actual yield of silver was 14.3 g, what is the percent yield of the reaction?

Answers

The balanced chemical equation is given below;2AgNO3 + Cu → Cu(NO3)2 + 2Ag

Given that the amount of copper reacted with silver nitrate is 6.51 g, the molar mass of Cu is 63.546 g/mol.

Therefore, the number of moles of Cu is; Number of moles = mass/Molar mass= 6.51 g/63.546 g/mol= 0.1024 mol The molar mass of AgNO3 is 169.87 g/mol. So, the number of moles of AgNO3 is calculated as follows:

The number of moles = mass/Molar mass= 28.4 g/169.87 g/mol= 0.1672 mol

Hence, AgNO3 is the limiting reactant in the reaction. Thus, it produces 2 moles of Ag. So, the theoretical yield of Ag is calculated as follows: Number of moles of Ag = 0.1672 mol × 2 = 0.3344 mol

The mass of Ag is obtained from the molar mass of Ag which is 107.87 g/mol. Mass of Ag = the number of moles of Ag × molar mass of Ag= 0.3344 mol × 107.87 g/mol= 36.1

Therefore, the theoretical mass of silver produced is 36.1 g. For the percent yield, we use the formula:

Percent yield = (Actual yield/Theoretical yield) × 100Given that the actual yield of silver is 14.3 g

Percent yield = (Actual yield/Theoretical yield) × 100= (14.3/36.1) × 100= 39.6 %

Therefore, the percent yield of the reaction is 39.6 %.

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determine the ka for the acid ha given that the equilibrium concentrations are [ha]=1.15 m, [a−]=0.0767 m, and [h3o ]=0.0383 m.

Answers

We will use the following equation to determine the Ka of the acid HA.  the Ka of the acid HA is 0.0025524 M.

Ka = [H3O+][A-] / [HA] [HA] is the initial concentration of HA before the reaction starts. HA (aq) + H2O (l) ⇌ H3O+ (aq) + A-(aq)

We know that the concentration of HA at equilibrium is 1.15 mM and that the concentration of H3O+ is 0.0383 mM at equilibrium.

[A-] is 0.0767 mM, but we can't use it directly because we need to find the concentration of A- at equilibrium. Because HA and A- are in a 1:1 ratio, the concentration of A- at equilibrium will also be 0.0767 mM.

Therefore,

the equilibrium concentrations are:

[HA] = 1.15 mM[A-]

= 0.0767 mM[H3O+]

= 0.0383 mM.  

Substituting these concentrations into the Ka expression, we get:

Ka = [H3O+][A-] / [HA]

= (0.0383 mM)(0.0767 mM) / (1.15 mM)

= 0.0025524 M

Therefore, the Ka of the acid HA is 0.0025524 M.

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what is formed in neutralization reation between a strong and a strong base

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In a neutralization reaction between a strong acid and a strong base, the result is the formation of salt and water.

Neutralization is the reaction between an acid and a base, resulting in the production of water and salt. Neutralization is a chemical reaction in which an acid reacts with a base to create a salt and water. The H+ ions from the acid react with the OH- ions from the base, producing water. The cation of the base combines with the anion of the acid to form the salt.

Example: NaOH (sodium hydroxide) is a strong base, and HCl (hydrochloric acid) is a strong acid. NaOH + HCl → NaCl + H2O (sodium chloride and water are formed). When the acidic hydrogen ion (H+) in hydrochloric acid reacts with the basic hydroxide ion (OH-) in sodium hydroxide, water and salt are formed.The H+ ion from the acid reacts with the OH- ion from the base to form water (H2O). The cation of the base reacts with the anion of the acid to form the salt.

Hence, in a neutralization reaction between a strong acid and a strong base, the result is the formation of salt and water.

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If you have 2.8 moles of gas held at a temperature of 95.0 degrees Celsius and in a container with a volume of 40.0 L, what is the pressure of the gas in atm?

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the pressure of the gas is 58.6 atm.

The pressure of a gas depends on its temperature, volume, and the number of moles of gas present. The ideal gas law, PV = nRT, can be used to calculate the pressure of a gas in such cases.

Here, we are given the number of moles of gas, temperature, and volume of the gas, and we need to calculate the pressure of the gas in atm.

The value of the universal gas constant (R) is 0.0821 L·atm/mol·K.

P = pressure of gas

V = volume of gasn = number of moles of gas

R = universal gas constant

T = temperature of gas

The formula of the ideal gas law:

PV = nRT

Firstly, let's convert the temperature of the gas to Kelvin.

T = 95.0 °C + 273.15 = 368.15 K

Now we can substitute the values into the formula to get:

P = (nRT) / V

where

P = pressure of gas = ?

n = number of moles of gas = 2.8 mol

V = volume of gas = 40.0 L = 0.0400

R = universal gas constant = 0.0821 L·atm/mol·K

T = temperature of gas = 368.15 KP = (2.8 mol × 0.0821 L·atm/mol·K × 368.15 K) / 0.0400 LP = 58.6 atm

Therefore, the pressure of the gas is 58.6 atm.

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Which statements about the properties of different types of crystalline solids are correct? Select all that apply.
Particles in a molecular solid are held together by intermolecular forces.
Metallic bonding involves the delocalization of electrons.
Ionic solids adopt many different types of unit cells.

Answers

The following are the correct statements regarding the properties of different types of crystalline solids: Particles in a molecular solid are held together by intermolecular forces.

Metallic bonding involves the delocalization of electrons. Ionic solids adopt many different types of unit cells. Particles in a molecular solid are held together by intermolecular forces. A molecular solid is a type of solid that is made up of molecules held together by van der Waals forces, dipole-dipole interactions, and hydrogen bonds. Ionic solids have strong electrostatic forces of attraction between the positive and negative ions.

Therefore, they have high melting and boiling points. The opposite charges of the ions in the crystal lattice attract each other, making it hard to break apart the lattice. Ionic solids adopt many different types of unit cells.Metallic bonding involves the delocalization of electrons. Metals have a sea of electrons that are free to move throughout the lattice of positive ions. These free electrons are responsible for the electrical conductivity of metals and their high ductility and malleability.

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How long must a constant current of 50.0 A be passed through an electrolytic cell containing aqueous Cu^2+ ions to produce 5.00 moles of copper metal?

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To produce 5.00 moles of copper metal, the electrolytic cell must be subjected to a constant current of 50.0 A for approximately 9,675 seconds (or about 2.69 hours).

To determine the time required for the electrolysis process, we need to use Faraday's law of electrolysis, which states that the amount of substance produced or consumed during electrolysis is directly proportional to the electric current and the time of electrolysis.

The equation for Faraday's law is:

m = (I * t * M) / (n * F)

Where:

m - the mass of the substance (in this case, copper) produced or consumed

I - electric current (in amperes)

M - the molar mass of the substance (in grams/mol)

t - time of electrolysis (in seconds)

n - number of moles of electrons transferred during the reaction

F - Faraday's constant (96,485 C/mol)

In this case, we want to produce 5.00 moles of copper. Copper (Cu) has a molar mass of 63.55 g/mol. The number of moles of electrons transferred during the reduction of Cu^2+ to Cu is 2.

We can find t by substituting these values into the equation:

5.00 mol = (50.0 A * t * 63.55 g/mol) / (2 mol * 96,485 C/mol)

Simplifying the equation:

t = (5.00 mol * 2 mol * 96,485 C/mol) / (50.0 A * 63.55 g/mol)

t ≈ 9,675 seconds

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if the half-life of 100 grams of a radioactive isotope is 10 years, how many grams would be left after 21 years?

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The radioactive decay is a first-order reaction. So, it is feasible to use the formula for the first-order reaction to find out how much of the radioactive isotope would be left after a specified time period.

The formula is given as:Nt = N0 x (1/2)^(t/t1/2)where Nt is the final amount of the isotope after a time period tN0 is the initial amount of the isotope at t = 0t1/2 is the half-life of the isotope The time is given as t = 21 years The half-life is given as t1/2 = 10 years The initial amount of the radioactive isotope is N0 = 100 grams Putting these values in the formula:Nt = N0 x (1/2)^(t/t1/2)Nt = 100 x (1/2)^(21/10)Nt = 100 x (1/2)^(2.1)Nt = 100 x 0.524Nt = 52.4 grams (approximately)

The formula for the first-order reaction is given as:Nt = N0 x (1/2)^(t/t1/2)where Nt is the final amount of the isotope after a time period tN0 is the initial amount of the isotope at t = 0t1/2 is the half-life of the isotope The time is given as t = 21 years The half-life is given as t1/2 = 10 years The initial amount of the radioactive isotope is N0 = 100 grams.Putting these values in the formula:Nt = N0 x (1/2)^(t/t1/2)Nt = 100 x (1/2)^(21/10)Nt = 100 x (1/2)^(2.1)Nt = 100 x 0.524Nt = 52.4 grams (approximately)Therefore, the number of grams of radioactive isotope left after 21 years would be approximately 52.4 grams.

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wat is the empirical formula for a compound that contains 0.126 mol ci ad 0.44 mol o

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The empirical formula for the compound that contains 0.126 mol of Cl and 0.44 mol of O is [tex]Cl_2O_7[/tex].

The empirical formula of a compound represents the simplest whole-number ratio of atoms present in the compound. To determine the empirical formula, we need to find the ratio of the number of moles of each element in the compound.

Given that there are 0.126 mol of Cl and 0.44 mol of O, we can start by dividing both values by the smallest number of moles, which is 0.126 mol in this case.

[tex]\(\frac{0.126 \text{ mol}}{0.126 \text{ mol}} = 1\) and \(\frac{0.44 \text{ mol}}{0.126 \text{ mol}} \approx 3.49\)[/tex]

Rounding the ratio to the nearest whole number, we get 1:3. Therefore, the empirical formula is [tex]\(\text{Cl}_1\text{O}_3\)[/tex].

However, empirical formulas are usually expressed using the simplest whole-number ratio. Since we cannot have fractional subscripts, we multiply the subscripts by 2 to get the final empirical formula:[tex](\text{Cl}_2\text{O}_6\)[/tex].

Hence, the empirical formula for the compound is  [tex]Cl_2O_7[/tex].

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Which of the following represents the rate at which CIO, (aq) is appearing in the reaction below? 2 CIO (aq) + 2 OH(aq) → CIO, (aq) + CIOs (aq) + H2O(l) A) +1/2A[CIOJAT B)-A[HOJAT C) +A[OHJAT D) +1/2A(OHJAT E) +ACCIO: ] At

Answers

The rate of appearance of CIO in the given chemical reaction is denoted by the option (D) +1/2A(OH).

The rate of a reaction can be expressed in terms of appearance or disappearance of reactants and products. The rate of appearance of a reactant in a reaction is the measure of the increase in the concentration of that reactant per unit time in the reaction. The rate of disappearance of a reactant is the measure of the decrease in the concentration of that reactant per unit time in the reaction.

The chemical reaction is given by: 2CIO (aq) + 2OH(aq) → CIO (aq) + CIOs (aq) + H2O(l)We have to determine the rate of appearance of CIO, which is represented as +1/2A(OH).

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if 0.500 mol of silver combines with 0.250 mol of sulfur, what is the empirical formula of the silver sulfide product?

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The empirical formula of the silver sulfide product is Ag2S.

The empirical formula of the silver sulfide product formed when 0.500 mol of silver combines with 0.250 mol of sulfur,  we need to find the ratio of the elements in the compound.

The given mole ratios can be used to determine the empirical formula.

Moles of silver (Ag) = 0.500 mol

Moles of sulfur (S) = 0.250 mol

Divide the moles of each element by the smallest value to find the simplest ratio:

Moles of Ag / Moles of S = 0.500 mol / 0.250 mol = 2

Moles of S / Moles of S = 0.250 mol / 0.250 mol = 1

The ratio of Ag to S is 2:1.

Therefore, the empirical formula of the silver sulfide product is Ag2S.

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Describe sure to answer all parts. Describe the hybrid orbitals used by the central atom and the type(s) of bonds formed in O₃. A. sp³ B. sp C. sp³d D. sp² Number of σ bonds: Number of π bonds:

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In O₃ (ozone), the central atom is an oxygen atom bonded to two other oxygen atoms. The oxygen atom in O₃ undergoes sp² hybridization. The correct option is D.

The sp² hybridization occurs when one s orbital and two p orbitals of the oxygen atom combine to form three sp² hybrid orbitals. These hybrid orbitals are arranged in a trigonal planar geometry around the central oxygen atom.

The type of bond formed in O₃ is a double bond. Each oxygen atom contributes one unhybridized p orbital, which overlaps sideways with the p orbital of the adjacent oxygen atom. This sideways overlap forms two π (pi) bonds, one above and one below the plane of the molecule.

Therefore, in O₃, there are two σ (sigma) bonds formed by the overlap of sp² hybrid orbitals and two π (pi) bonds formed by the overlap of unhybridized p orbitals. The correct option is D.

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the product of the nucleophilic aromatic substitution reaction, 2,4-dinitrophenylthiocyanate, will be isolated according to which of the following procedures?

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The product of the nucleophilic aromatic substitution reaction, 2,4-dinitrophenylthiocyanate, will be isolated by crystallization from an organic solvent such as methanol or ethanol.

In organic chemistry, nucleophilic aromatic substitution (S[subscript]NAr) is a reaction where a nucleophile replaces a leaving group on an aromatic ring. This reaction occurs under conditions where the electrophile is strongly deactivated or ortho/para directing. The product of the nucleophilic aromatic substitution reaction, 2,4-dinitrophenylthiocyanate, will be isolated by crystallization from an organic solvent such as methanol or ethanol.

The general procedure for isolating a solid product by crystallization involves dissolving the crude product in a suitable solvent and then slowly cooling the solution to allow the product to crystallize out. The product is then filtered, washed with cold solvent, and air-dried. The purity of the product can be determined by melting point analysis.

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how much of an 800-gram sample of potassium-40 will remain after 3.9 × 10^9 years of radioactive decay is 100?

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After 3.9 × 10^9 years of radioactive decay, none of the 800-gram sample of potassium-40 will remain.

Potassium-40 is a radioactive isotope with a half-life of approximately 1.25 billion years. The half-life represents the time it takes for half of the radioactive substance to decay. In this case, after each half-life of 1.25 billion years, the amount of potassium-40 will be reduced by half. Since 3.9 × 10^9 years is approximately three times the half-life of potassium-40, the sample will undergo three rounds of decay, reducing the amount to one-eighth (1/2^3) of the original. Therefore, after 3.9 × 10^9 years, none of the 800-gram sample of potassium-40 will remain.

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100 grams of the original 800-gram sample of potassium-40 will remain after 3.9 × 109 years of radioactive decay.

The half-life of potassium-40 is 1.3 billion years. This means that half of the original sample will have decayed after 1.3 billion years. We can calculate the amount of potassium-40 remaining after 3.9 × 109 years using the following formula:N = N₀(1/2)^(t/T),where N is the final amount, N₀ is the initial amount, t is the time elapsed, and T is the half-life.Substituting the given values, we have:N = 800(1/2)^(3.9 × 10^9/1.3 × 10^9)= 800(1/2)^3 = 800/8 = 100 grams Therefore, 100 grams of the original 800-gram sample of potassium-40 will remain after 3.9 × 109 years of radioactive decay.

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A biochemist completely digests a glycerophospholipid with a mixture of phospholipases A and D. HPLC and mass spectrometry analysis reveals the presence of an amino acid of 105.09 Da, a saturated fatty acid of 256.43 Da, and an omega-3 monounsaturated fatty acid of 282.45 Da.
Which amino acid does the glycerophospholipid contain? a. valine (C5H11NO2) b. alanine (C3H7NO2) c. serine (C3H7NO2) d. proline (C3H9NO2)

Answers

The amino acid that the glycerophospholipid contains is serine ([tex]C_3H_7NO_2[/tex]). Option c. is correct.

Phospholipases are enzymes that catalyze the hydrolysis of phospholipids into glycerophospholipids, fatty acids, and water. Glycerophospholipids have a glycerol backbone, which is attached to fatty acids and a phosphate-containing polar head group that is attached to an amino alcohol. They are a significant component of the cell membrane, as they provide a barrier between the interior and exterior of the cell.

They also serve as precursors for signaling molecules and other lipids. The mass spectrometry analysis of the completely digested glycerophospholipid reveals that the lipid contains an amino acid of 105.09 Da, a saturated fatty acid of 256.43 Da, and an omega-3 monounsaturated fatty acid of 282.45 Da.

The amino acid that has a mass of 105.09 Da is serine ([tex]C_3H_7NO_2[/tex]).Therefore, the correct answer is option c. serine ([tex]C_3H_7NO_2[/tex]).

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predict approximate a , e, the values for the H-C-H, O-C-O, and H-N-H bond D, Part B What is the predicted H-C-H tond angle? Express the bond angle in degrees as an integer. H-C-HI angle 120 Submit Previous Answers Request Answer Incorrect; Try Again; 4 attempts remaining Part C What is the predicted O=-C-O bond angle? as an integer.

Answers

The predicted bond angles are as follows:

H-C-H: 120 degreesO-C-O: N/A

The predicted bond angle for H-C-H is 120 degrees. This means that the angle between the hydrogen atom, carbon atom, and another hydrogen atom in a methane molecule (CH4) is expected to be approximately 120 degrees.

The H-C-H bond angle in methane can be explained by considering the electron pairs around the central carbon atom. Methane has a tetrahedral molecular geometry, where the carbon atom is at the center and the four hydrogen atoms are at the corners of the tetrahedron. In this arrangement, the four electron pairs around the carbon atom repel each other and try to maximize their distance, resulting in bond angles of approximately 109.5 degrees.

However, in methane, one of the hydrogen atoms is replaced by an electron pair, which exerts greater repulsion on the other three bonding hydrogen atoms. This causes the H-C-H bond angle to be slightly larger than the ideal tetrahedral angle of 109.5 degrees, resulting in a predicted angle of 120 degrees.

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what is the formula of a compound formed from the ions m 1 and x 3-? a. m 3x b. none of these c. mx d. mx 3

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What are ions?Ions are electrically charged atoms or molecules that are formed when an atom or molecule gains or loses one or more electrons. Cations are positively charged ions, whereas anions are negatively charged ions.

Ions are formed when neutral atoms gain or lose one or more electrons, becoming positively or negatively charged. For example, when sodium (Na) loses an electron, it forms a positively charged ion (Na+). Similarly, when chlorine (Cl) gains an electron, it forms a negatively charged ion (Cl-).What is a compound?A compound is a substance made up of two or more elements that are chemically combined in a fixed ratio. Compounds can be composed of atoms of the same element or atoms of different elements. For example, carbon dioxide (CO2) is a compound made up of one carbon atom and two oxygen atoms. Similarly, water (H2O) is a compound made up of two hydrogen atoms and one oxygen atom.How to write the formula of a compound?The formula of a compound represents the ratio of the different atoms or ions in the compound. The formula of a compound is written by using the symbols of the elements or ions in the compound. The subscripts in the formula represent the number of atoms or ions of each element present in the compound.

For example, the formula of water is H2O, which indicates that there are two hydrogen atoms and one oxygen atom in each molecule of water. The formula of sodium chloride is NaCl, which indicates that there is one sodium ion and one chlorine ion in each molecule of sodium chloride. The formula of a compound formed from the ions m1 and x3- is mx.

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the concentration of an acid in the henderson-hasselbalch equation is represented by _____.fill in the blank

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In the Henderson-Hasselbalch equation, the concentration of an acid is represented by its dissociation constant Ka.

The Henderson-Hasselbalch equation is an equation that relates the pH of a buffer to the dissociation constant and the concentrations of the weak acid and its conjugate base in the buffer solution. The Henderson-Hasselbalch equation is a quantitative relationship between the pH, pKa, and the buffer's ratio of conjugate base to weak acid.

                             This equation is often used to calculate the pH of a buffer solution. It is represented mathematically as:pH = pKa + log([A-]/[HA])Where:pH is the negative logarithm of the hydrogen ion concentration.pKa is the negative logarithm of the acid dissociation constant, Ka.[A-] is the concentration of the conjugate base of the weak acid.

                                 [HA] is the concentration of the weak acid.The Henderson-Hasselbalch equation can also be used to determine the proportion of acid to its conjugate base or vice versa in a buffer system given the pH and the dissociation constant of the acid.

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what happens when van der waals force of attraction between molecules decrease

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When van der Waals force of attraction between molecules decreases, the boiling and melting points of the substance will decrease as well.

Van der Waals forces are the forces of attraction between molecules that are not covalently bonded or ionic. These are comparatively weak intermolecular forces that exist between atoms and molecules. Van der Waals forces are responsible for the boiling point and melting point of a substance. When van der Waals forces between molecules decrease, the boiling and melting points of the substance will decrease as well.

Van der Waals forces exist in three types, namely Keesom forces, Debye forces, and London forces. All of these forces are responsible for intermolecular forces between molecules. Keesom forces operate between two permanent dipoles, while Debye forces operate between a permanent dipole and a temporarily induced dipole. London forces are operating between two temporarily induced dipoles.

Therefore, when the van der Waals forces between molecules decrease, the substance's boiling and melting points will decrease.

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the coefficient of a particular substance in a balanced equation represents ___________.

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The coefficient of a particular substance in a balanced equation represents the number of moles of that substance that react or are produced in the reaction.

When a chemical equation is balanced, the coefficients tell the ratios in which substances react and are produced in the reaction.

In a balanced chemical equation, the law of conservation of mass is obeyed. This law states that in any chemical reaction, the mass of the reactants should be equal to the mass of the products, implying that atoms can neither be created nor destroyed.The coefficient of a substance in a balanced equation determines the number of moles of that substance that react or are produced. Thus, the coefficients can be used to calculate the stoichiometry of a reaction and hence, the quantity of products formed. Additionally, the coefficients can be used to determine the limiting reactant in a reaction, which is the reactant that is completely consumed, thereby limiting the amount of product that can be produced. The non-limiting reactant, on the other hand, remains in excess.

Thus, the coefficient of a particular substance in a balanced equation represents the number of moles of that substance that react or are produced in the reaction.

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calculate the ph of a solution containing a caffeine concentration of 455 mg/l .

Answers

It is important to note that caffeine does not usually exist in its acid form in aqueous solutions, as it is highly soluble in water and is usually found in its salt form.

To calculate the pH of a solution containing a caffeine concentration of 455 mg/L, we can use the following steps:Step 1: Write the chemical equation of caffeine Caffeine, C8H10N4O2 Step 2: Write the expression of the dissociation of caffeine in water

C8H10N4O2 ⇌ C8H9N4O2− + H+

Step 3: Write the equilibrium constant expression

Kw = [C8H9N4O2−] [H+] / [C8H10N4O2]

Since caffeine is a weak acid, we can use the following formula to calculate its

pH:pH = pKa + log([salt]/[acid])

where pKa is the acid dissociation constant for caffeine, [salt] is the concentration of the salt form of caffeine, and [acid] is the concentration of the acid form of caffeine. The acid form of caffeine is C8H10N4O2, and the salt form of caffeine is C8H9N4O2−. The pKa of caffeine is about 0.02.To calculate the pH of a solution containing a caffeine concentration of 455 mg/L, we need to convert the concentration of caffeine from mg/L to mol/L. The molar mass of caffeine is 194.19 g/mol, so 455 mg/L is equivalent to

2.34 × 10−3 mol/L.

Then we can use the formula above to calculate the

pH:pH = 0.02 + log([C8H9N4O2−]/[C8H10N4O2])pH = 0.02 + log(2.25 × 10−8 / 2.34 × 10−3)pH = 0.02 + log(9.62 × 10−12)pH = 0.02 - 11.02pH ≈ -11.00

Since the pH is negative, this solution is highly acidic. However, it is important to note that caffeine does not usually exist in its acid form in aqueous solutions, as it is highly soluble in water and is usually found in its salt form.

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Caffeine is very soluble in water and is typically found in its salt form, hence it is vital to note that it does not typically exist in its acid form in aqueous solutions.

Thus, We can use the following procedures to determine the pH of a solution with 455 mg/L of caffeine in it: Step 1: Compose the caffeine chemical equation. CH₁₀N₄O₂ Caffeine Step 2: Express the dissociation of caffeine in water in writing.

Step 3: Compose the expression for the equilibrium constant : CH₁₀N₄O₂  Kw [H+] /CH₁₀N₄O₂

Given that caffeine is a weak acid, the following formula can be used to get its : pH:pH = pKa + log(salt/acid), where [salt] is the concentration of caffeine in its salt form, and pKa is the caffeine's acid dissociation constant.

Thus, Caffeine is very soluble in water and is typically found in its salt form, hence it is vital to note that it does not typically exist in its acid form in aqueous solutions.

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Dissolving 3.00 g of an impure sample of calcium carbonate in excess hydrochloric acid produced 0.656 L of carbon dioxide (measured at 20.0oC and 792 mmHg). The equation for the reaction is: CaCO3 (s) + 2HCl ? CaCl2 (aq) + 2H2O (?) + CO2 (g) Calculate the percent by mass of calcium carbonate in the sample, assuming 100% efficiency. [Ca = 40.08; C = 12.01; O = 16.00; 1 atm = 760 mmHg; R = 0.08206 L.atm/mol/K].

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The experiment involved dissolving an impure sample of calcium carbonate in excess hydrochloric acid, resulting in the production of carbon dioxide gas.  0.840% is the percentage of calcium carbonate in the sample.

To calculate the percentage by mass of calcium carbonate in the sample, we need to determine the number of moles of carbon dioxide produced. The ideal gas law equation, PV = nRT, can be used to convert the measured volume of carbon dioxide to moles.

First, convert the temperature to Kelvin by adding 273.15 to 20.0oC, giving 293.15 K. Then, convert the pressure from mmHg to atm by dividing 792 mmHg by 760 mmHg/atm, resulting in 1.042 atm.

Using the ideal gas law, PV = nRT, we can rearrange the equation to solve for n (moles). Substitute the values into the equation: (1.042 atm) * (0.656 L) = n * (0.08206 L.atm/mol/K) * (293.15 K). Solving for n gives us 0.0252 moles of [tex]CO_2[/tex].

Since the reaction stoichiometry shows that 1 mole of [tex]CaCO_3[/tex] produces 1 mole of [tex]CO_2[/tex], the number of moles of [tex]CaCO_3[/tex] in the sample is also 0.0252.

To calculate the percentage by mass of calcium carbonate, divide the mass of [tex]CaCO_3[/tex] by the mass of the sample (3.00 g) and multiply by 100%. The molar mass of [tex]CaCO_3[/tex] is (40.08 g/mol + 12.01 g/mol + 3 * 16.00 g/mol) = 100.09 g/mol. Therefore, the percentage by mass of calcium carbonate in the sample is (0.0252 mol * 100.09 g/mol / 3.00 g) * 100% = 0.840%.

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FILL IN THE BLANK. Balance the following redox reaction under basic conditions: CH(OH)3 (s) + Cu²+ (aq) - Cro4²- (aq) + Cu+ (aq) How many electrons are transferred during the reaction? Input a number ______

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6 electrons are transferred during the reaction.

The balanced equation for the given redox reaction is as follows:

[tex]CH(OH)_3[/tex] + 3Cu²+ + 2OH⁻ → CrO4²⁻ + 3Cu+ + 3H2O

In this reaction, electrons are transferred from Cu²+ ions to CrO4²⁻ ions.

Each Cu²+ ion loses one electron to form Cu+ ion. The oxidation state of Cu is reduced from +2 to +1.3

Cu²+ → 3Cu+ + 3e⁻

Electrons are also transferred from CrO4²⁻ ions to [tex]CH(OH)_3[/tex]  molecules. The oxidation state of Cr is reduced from +6 to +3. CrO4²⁻ + 3H2O →[tex]Cr(OH)_3[/tex] + 4OH⁻

In this reaction, CrO4²⁻ ions gain 3 electrons to form [tex]Cr(OH)_3[/tex]  molecules.

4OH⁻ + CrO4²⁻ + 3e⁻ → [tex]Cr(OH)_3[/tex]  + 4OH⁻

Thus, 6 electrons are transferred during the reaction.

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channels through which ions pass to establish the resting membrane potential are referred to as______ion channels.

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The channels through which ions pass to establish the resting membrane potential are referred to as leak ion channels.

A resting membrane potential is the voltage difference that exists across the membrane of an excitable cell when the cell is at rest. In simple terms, it is the voltage difference across the plasma membrane when a cell is not transmitting an impulse, with the interior of the cell being negative and the exterior being positive. The ion channels that permit the movement of ions down their concentration gradients to establish the resting membrane potential are known as leak ion channels.

The ions that are most commonly associated with this process are potassium and sodium ions. These ions passively move across the cell membrane from a high concentration area to a low concentration area when ion channels are open. As the ions diffuse across the membrane, they contribute to the negative charge inside the cell and the positive charge outside, generating a voltage difference across the cell membrane.

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The temperature rises From 25.00 degree c to 29.00 degree c in a bomb calorimeter when 3.50 g of sucrose undergoes combustion in a bomb calorimeter. Calculate delta E rxn For the combustion of sucrose in kJ/mol sucrose. The heat capacity of the calorimeter is 4.90 kJ/ degree C . The molar mass of sugar is 342.3 g/mol. 1. 92 x 103 kJ/mole 2 .35 x 104 kJ/mole - 1.23 x 103 kJ/mole - 1. 92 x 103 kJ/mole

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The combustion of 3.50 g of sucrose in a bomb calorimeter resulted in a temperature increase from [tex]25.00^0C[/tex] to [tex]29.00^0C[/tex]. The value of Δ[tex]E_{rxn}[/tex] for the combustion of sucrose is approximately [tex]-1.92 * 10^3[/tex] kJ/mol sucrose.

To calculate Δ[tex]E_r_x_n[/tex], we need to consider the heat transferred during the combustion of sucrose. The temperature rise in the calorimeter reflects this heat transfer. First, we calculate the heat absorbed by the calorimeter using the equation:

[tex]q_{calorimeter} = C_{calorimeter} *[/tex] ΔT

where [tex]q_{calorimeter}[/tex] is the heat absorbed by the calorimeter, [tex]q_{calorimeter}[/tex] is the heat capacity of the calorimeter ([tex]4.90 kJ/^0C[/tex]), and ΔT is the change in temperature ([tex]29.00^0C - 25.00^0C = 4.00^0C[/tex]). Substituting the values:

[tex]q_{calorimeter}[/tex] = [tex]4.90 kJ/^0C[/tex] × [tex]4.00^0C[/tex] = 19.6 kJ

Since the heat released by the combustion is equal to the heat absorbed by the calorimeter, we have:

[tex]q_{combustion}[/tex] = [tex]-q_{calorimeter}[/tex] = -19.6 kJ

Next, we convert the mass of sucrose (3.50 g) to moles using its molar mass (342.3 g/mol):

moles of sucrose = 3.50 g / 342.3 g/mol = 0.0102 mol

Finally, we can calculate Δ[tex]E_{rxn}[/tex] using the equation:

Δ[tex]E_{rxn}[/tex] = [tex]q_{combustion}[/tex] / moles of sucrose = -19.6 kJ / 0.0102 mol = [tex]-1.92 * 10^3[/tex] kJ/mol sucrose

Therefore, the value of Δ[tex]E_{rxn}[/tex]for the combustion of sucrose is approximately [tex]-1.92 * 10^3[/tex] kJ/mol sucrose.

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cyclononane has 9 carbons how many hydrogens are in cyclononane

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Cyclononane, which is an alkane known as alicyclic hydrocarbon, has a total of 20 hydrogen atoms.

Cyclononane is an alkane and has the molecular formula C9H18. Since there are nine carbon atoms, the number of hydrogen atoms can be determined by using the formula: 2n + 2, where n is the number of carbon atoms. 2n + 2 = 2(9) + 2 = 20. Therefore, cyclononane has 20 hydrogen atoms.

An alicyclic hydrocarbon with a ring of nine carbon atoms is cyclononane. A hydrocarbon is an organic molecule made completely of hydrogen and carbon in organic chemistry. Examples of group 14 hydrides include hydrocarbons. The majority of hydrocarbons are colorless and hydrophobic; they occasionally have a mild odor that is comparable to that of gasoline or lighter fluid.

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the sp of scandium fluoride, scf3 , is 5.81×10−24 . calculate the molar solubility, , of this compound.

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Answer:

Explanation:

To determine the molar solubility of a compound,  the solubility product constant (Ksp) and the stoichiometry of the compound are required. Solubility product constant represents equilibrium expression for the dissociation of the compound in the solution.

The given solubility product constant [tex]K_{sp}[/tex] for scandium fluoride [tex]ScF_{3}[/tex] is 5.81×[tex]10^{-24}[/tex]

Balanced chemical equation for the dissociation  [tex]ScF_{3}[/tex] is:

[tex]ScF_{3}[/tex] (s) ⇌ [tex]Sc^{+3}[/tex]+ (aq) + [tex]3F^{-3}[/tex] (aq)

Assume that 'x' represents the molar solubility of [tex]ScF_{3}[/tex] moles per liter (mol/L).

Equilibrium expression for the solubility product constant is:

[tex]K_{sp}[/tex] =[tex]Sc^{3}[/tex]+[tex]({F^{-}} )^3[/tex]

As the stoichiometry of [tex]ScF_{3}[/tex] is 1:3, it  can  be expressed the concentration of fluoride ions ([[tex]F^{-}[/tex]]) in terms of 'x':

[[tex]F^{-}[/tex]] = 3x

Substituting this into the Ksp expression, we have:

Ksp = [tex](x)(3x)^{3[/tex]

5.81×[tex]10^{-24}[/tex] = 27[tex]x^{4}[/tex]

Simplifying the equation further, we get:

[tex]x^{4}[/tex] = (5.81×[tex]10^{-24}[/tex]) / 27

[tex]x^{4}[/tex] = 2.15×[tex]10^{-26}[/tex]

Taking the fourth root of both sides, we find:

x = 2.15 × [tex]10^{-26}^(1/4)[/tex]

x ≈ 1.01×[tex]10^{-6}[/tex]

Therefore, the molar solubility of scandium fluoride [tex]ScF_{3}[/tex] is approximately 1.01×[tex]10^{-6}[/tex] mol/L.

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what is the iupac name for the following compound? m10q2 5-ethyl-6-methyl-7-octen-4-ol 3-ethyl-4-methyl-2-octen-5-ol 4-ethyl-6-methyl-1-octen-5-ol 4-ethyl-3-methyl-1-octen-5-ol

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The IUPAC name for the following compound is 4-ethyl-6-methyl-1-octen-5-ol.  Let's break down this IUPAC name of the given compound.

IUPAC name is the systematic method of naming organic chemical compounds. It is also known as the systematic naming system. The name of organic compounds specifies the structural information about the compounds. The given compound's IUPAC name is 4-ethyl-6-methyl-1-octen-5-ol. Let's break down this IUPAC name of the given compound.

The number 4 represents the location of the ethyl group on the fourth carbon of the chain. The number 6 represents the location of the methyl group on the sixth carbon of the chain.The number 1 represents the location of the double bond between the first and the second carbon of the chain. The number 5 represents the location of the hydroxyl (-OH) group on the fifth carbon of the chain.

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for a certain acid pka = 6.58. calculate the ph at which an aqueous solution of this acid would be 0.27 issociated. round your answer to 2 decimal places.

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The pH at which the aqueous solution of this acid would be 0.27% dissociated is approximately 8.08. For a certain acid with a pKa of 6.58, we need to calculate the pH at which an aqueous solution of this acid would be 0.27% dissociated, rounded to two decimal places.

For a certain acid with a pKa of 6.58, we need to calculate the pH at which an aqueous solution of this acid would be 0.27% dissociated, rounded to two decimal places. The percent dissociation (α) of an acid is given by the formula:

α = 100 / (1 + 10^(pH - pKa))

At the point of half dissociation, i.e., when α = 0.27%, we have: 0.27 = 100 / (1 + 10^(pH - 6.58))

Simplifying this expression, we get: 0.0027 = 1 / (1 + 10^(pH - 6.58))

Taking reciprocals of both sides, we have: 370.37 = 1 + 10^(pH - 6.58)10^(pH - 6.58) = 370.37 - 1 = 369.37

Taking logarithms of both sides, we get: pH - 6.58 = log(369.37)pH = log(369.37) + 6.58

Therefore, pH = 8.08 (approx)

For this problem, we use the formula for the percent dissociation of an acid:α = 100 / (1 + 10^(pH - pKa))

where α is the percent dissociation of the acid, pH is the pH of the solution, and pKa is the acid dissociation constant. To find the pH at which the solution would be 0.27% dissociated, we need to use the above formula to solve for pH. The pKa of the acid is given as 6.58. At the point of half dissociation, the percent dissociation (α) is 0.27%. Substituting these values into the formula, we get: 0.27 = 100 / (1 + 10^(pH - 6.58))

Simplifying this equation, we get: 0.0027 = 1 / (1 + 10^(pH - 6.58))

Multiplying both sides by (1 + 10^(pH - 6.58)), we get: 1 + 10^(pH - 6.58) = 370.37

Taking the logarithm of both sides, we get: pH - 6.58 = log(370.37 - 1) = log(369.37)pH = log(369.37) + 6.58

Therefore, the pH at which the aqueous solution of this acid would be 0.27% dissociated is approximately 8.08.

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the vapor pressure of butane at 300 k is 2.2 bar and the density is 0.5788 g/ml. what is the vapor pressure of butane in air at blank

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The vapor pressure of butane at 300 k is 2.2 bar and the density is 0.5788 g/ml. The vapor pressure of butane in the air is at 0.022 bar.

The vapor pressure of butane at 300 K is 2.2 bar. The density of butane is 0.5788 g/ml. Air pressure is not given. Furthermore, we can calculate the mole fraction of butane, and then we can use Dalton's law of partial pressure to calculate the vapor pressure of butane in air. The mole fraction of butane can be calculated as follows:

mole fraction of butane = (mass of butane / molar mass of butane) / (density of butane / molar mass of butane + density of air / molar mass of air)

molar mass of butane = 58 gmol⁻¹, and molar mass of air = 29 gmol⁻¹

mass of butane = density of butane × volume of butane = 0.5788 g/ml × 1000 ml/liter = 578.8 g/m³

Thus, mole fraction of butane = (578.8 / 58) / (0.5788 / 58 + 1.225 / 29) = 0.0099 (approx)

Now, using Dalton's law of partial pressure, the vapor pressure of butane in the air at unknown pressure is given by:

p = P° x mole fraction of butane

where p is the vapor pressure of butane in air, and P° is the vapor pressure of butane at 300 K= 2.2 bar. Putting all values in the formula we get

p = 2.2 × 0.0099 ≈ 0.022 bar (approx)

Hence, the vapor pressure of butane in the air at unknown pressure is 0.022 bar.

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We can use the ideal gas law to calculate the number of moles of air. At 300 K, 1 atm pressure, and 1 L volume:

P = nRT/Vn_air = PV/RTn_air = (1.01325 bar * 1000 cm³) / (0.08206 L atm/mol K * 300 K)n_air = 0.0419 mol

Now:

n_total = n_butane + n_airn_total = 0.00996 mol + 0.0419 mol = 0.05186 molX = n_butane / n_totalX = 0.00996 mol / 0.05186 molX = 0.192P_vap = P_total * XP_vap = 1.01325 bar * 0.192P_vap = 0.1946 bar

Therefore, the vapor pressure of butane in air at 300 K is approximately 0.1946 bar or 19.46 kPa (rounded off to two significant figures).

The vapor pressure of butane at 300 K is 2.2 bar and the density is 0.5788 g/mL. The vapor pressure of butane in air at the given temperature needs to be calculated.What is the vapor pressure of butane in air?Given information:Vapor pressure of butane, P = 2.2 bar Density of butane, ρ = 0.5788 g/mLFirst, let's convert the density from grams per milliliter to kilograms per cubic meter.

1 g/mL = 1000 kg/m³0.5788 g/mL = 578.8 kg/m³

Now we can use the relationship between vapor pressure, mole fraction, and partial pressure to solve for the vapor pressure of butane in air. This is given by Dalton's law of partial pressures.P_vap = P_total * XWhere:P_vap = Vapor pressure of butane in airP_total = Total pressureX = Mole fraction of butane in airLet's assume that the pressure of air is 1 atm or 1.01325 bar. We need to calculate the mole fraction of butane in air.The density of butane, ρ = m/V = n * MM/Vn = number of moles of butaneMM = molar mass of butaneV = volume of butaneLet's take 1 L of butane gas, which weighs 0.5788 kg. The molar mass of butane is 58.12 g/mol.n = 0.5788 g / 58.12 g/mol = 0.00996 molV = 1 L = 1000 cm³Now we need to calculate the mole fraction of butane in air. This is given by:X = n_butane / n_totalWhere:n_butane = number of moles of butanen_total = total number of molesLet's assume that the volume of air is equal to the volume of butane gas. Therefore, the total number of moles of gas is:n_total = n_butane + n_airWe can use the ideal gas law to calculate the number of moles of air. At 300 K, 1 atm pressure, and 1 L volume:

P = nRT/Vn_air = PV/RTn_air = (1.01325 bar * 1000 cm³) / (0.08206 L atm/mol K * 300 K)n_air = 0.0419 mol

Now:

n_total = n_butane + n_airn_total = 0.00996 mol + 0.0419 mol = 0.05186 molX = n_butane / n_totalX = 0.00996 mol / 0.05186 molX = 0.192P_vap = P_total * XP_vap = 1.01325 bar * 0.192P_vap = 0.1946 bar

Therefore, the vapor pressure of butane in air at 300 K is approximately 0.1946 bar or 19.46 kPa (rounded off to two significant figures).

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