if the combustion of 59.10 g of c4h10 produces 99.71 g of co2. what is the percent yield of the reaction? (assume oxygen is in excess.)

Answers

Answer 1

The percent yield of the combustion reaction is 55.70%.

To calculate the percent yield of the reaction, you'll first need to determine the theoretical yield and then compare it to the actual yield.

1. Calculate the molar mass of C₄H₁₀ (butane) and CO₂:
C₄H₁₀: (4 x 12.01) + (10 x 1.01) = 58.12 g/mol
CO₂: (1 x 12.01) + (2 x 16.00) = 44.01 g/mol

2. Calculate the moles of C₄H₁₀:
59.10 g C₄H₁₀ * (1 mol C₄H₁₀ / 58.12 g) = 1.017 mol C₄H₁₀

3. Use the balanced equation to determine the moles of CO₂ produced theoretically:
C₄H₁₀ + 13/2 O₂ -> 4 CO₂ + 5 H₂O
1.017 mol C₄H₁₀ * (4 mol CO₂ / 1 mol C₄H₁₀) = 4.068 mol CO₂

4. Calculate the theoretical yield of CO₂:
4.068 mol CO₂ * (44.01 g / 1 mol CO₂) = 179.03 g CO₂

5. Determine the percent yield:
Percent yield = (Actual yield / Theoretical yield) x 100
Percent yield = (99.71 g CO₂ / 179.03 g CO₂) x 100 = 55.70%

So, the percent yield of the reaction is 55.70%.

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Related Questions

upon analysis, the mole ratio between al3 and c2o42- in the compound was found to be 1 to 2. what is a tentative formula for the compound?

Answers

Based on the given mole ratio of 1:2 between Al³⁺and C²O⁴²⁻, in the compound was found to be 1 to 2. The tentative formula for the compound is  Al(C²O)3/2.

We can assume that the compound contains one Al³+ ion and two C²O⁴²- ions. To determine the tentative formula, we need to find the chemical formula that contains these ions in this ratio.  First, we need to determine the charges of the ions involved. Al³⁺ has a charge of +3, while C²O⁴²- has a charge of -4. To balance the charges, we need two C²O⁴²- ions for every Al³+ ion, giving us the formula Al²(C²O⁴)3.

However, we need to simplify this formula by dividing all the subscripts by their greatest common factor, which is 2. This gives us the tentative formula Al(C²O⁴)1.5, which we can write as Al(C²O⁴)3/2. Therefore, the tentative formula for the compound with a mole ratio of 1:2 between Al³+ and C²O⁴²- is Al(C²O⁴)3/2.

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calculate the concentration of ca2 in a saturated solution of caso4 in distilled water

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The result is a concentration of 1.00 x 10^-5 M, which is the concentration of Ca2+ in a saturated solution of CaSO4 in distilled water

The concentration of Ca2+ in a saturated solution of CaSO4 in distilled water can be calculated using the solubility product constant (Ksp) of CaSO4. The Ksp of CaSO4 is equal to the product of the concentrations of the calcium ion and the sulfate ion, which can be expressed as Ksp = [Ca2+][SO42-]. Since the solution is saturated, the concentration of CaSO4 is equal to the solubility of CaSO4 in distilled water. Therefore, the concentration of Ca2+ can be calculated as follows:

Ksp = [Ca2+][SO42-]
4.93 x 10^-5 = [Ca2+][4.93 x 10^-5]
[Ca2+] = 1.00 x 10^-5 M

The solubility product constant (Ksp) is a measure of the degree of saturation of a solution with respect to a particular ionic compound. It is the product of the ion concentrations in a saturated solution of the compound. For CaSO4, the Ksp is equal to the product of the concentrations of Ca2+ and SO42-. Since the solution is saturated, the concentration of CaSO4 is equal to its solubility in distilled water. By substituting the Ksp and solubility values into the equation, we can solve for the concentration of Ca2+. The result is a concentration of 1.00 x 10^-5 M, which is the concentration of Ca2+ in a saturated solution of CaSO4 in distilled water.

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for the reaction 2ch4 (g) 3 cl2 (g) → 2 chcl3 (l) 3 h2 (g), δh° = -118.6 kj. δh°f = -134.1 kj/mol for chcl3 (l). find δh°f for ch4 (g).

Answers

For the reaction 2CH₄ (g) 3 Cl₂ (g) → 2 ChCl₃ (l) 3 H₂ (g), ΔH° = -118.6 kj. ΔH°f = -134.1 kj/mol for ChCl₃ is 29.65 KJ and CH₄  is 58.5 KJ by using Hess law.

The enthalpy change for a reaction can be related to the enthalpy of formation values for the compounds involved. In this case, we are given the enthalpy change (ΔH°) for the reaction and the enthalpy of formation (ΔH°f) for  ChCl₃ (l). We need to calculate the ΔH°f for CH₄ (g).

The balanced equation for the reaction shows that 2 moles of  Hess law CH₄ (g) are consumed to form 2 moles of  ChCl₃ (l). Therefore, the enthalpy change for the formation of 2 moles of  ChCl₃ (l) can be related to the enthalpy change for the formation of 2 moles of CH4 (g).

ΔH°f of ChCl₃= 58.5 KJ

Using the given values, we can set up a proportion to solve for ΔH°f of CH₄ (g). Since the enthalpy change is given as ΔH° = -118.6 kJ, and the enthalpy of formation for  ChCl₃ (l) is given as ΔH°f = -134.1 kJ/mol, we can write the proportion:

(-118.6 kJ) / (2 mol) = ΔH°f / (2 mol)

Simplifying the equation, we can solve for ΔH°f of CH₄(g).

ΔH°f=29.65 KJ

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Kera is investigating how nitrogen runoff from organically fertilized comfields is affecting the local streams and takes. The focus of her study is: Select only ONE answer choice. Energy cycling Population ecology Trophic levels Nutrient cycling

Answers

Nutrient cycling, The correct option is D. Nutrient cycling



Kera's investigation is specifically focused on how nitrogen runoff from organically fertilized cornfields is affecting the local streams and lakes. This indicates that the study is related to the movement and cycling of nutrients, specifically nitrogen, in the ecosystem. Therefore, the focus of her study is on nutrient cycling.

Kera's investigation is important as it helps to understand how organic fertilizers impact the environment and how nutrient cycling in aquatic ecosystems can be impacted by human activities. This knowledge can be used to develop better farming practices and management strategies to minimize the negative impacts on the environment.

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A good year blimp (a huge airship) is filled to a volume of 2,000L at a temperature of 30°C. As the weather changed the blimp is then cooled at constant pressure to a temperature of -38°C. What is the final volume of the blimp?

Answers

The final volume of the blimp, when cooled at constant pressure from 30°C to -38°C, is approximately 1,548.5 L.

To solve this problem, we can use the combined gas law, which relates the initial and final temperatures and volumes of a gas at constant pressure. The combined gas law can be expressed as:

(P₁V₁)/T₁ = (P₂V₂)/T₂

where P₁ and V₁ are the initial pressure and volume, T₁ is the initial temperature, P₂ and V₂ are the final pressure and volume, and T₂ is the final temperature.

In this case, the initial volume is given as 2,000 L, the initial temperature is 30°C (which we will convert to Kelvin by adding 273.15), and the final temperature is -38°C (also converted to Kelvin).

We need to find the final volume, and we are told that the pressure remains constant. Therefore, the equation becomes:

(P₁)(2,000 L)/(30 + 273.15 K) = (P₂)(V₂)/(-38 + 273.15 K)

Simplifying the equation, we have:

(2,000 L)/(303.15 K) = (P₂)(V₂)/(235.15 K)

To find the final volume, we multiply both sides of the equation by (235.15 K):

V₂ = (2,000 L)(235.15 K)/(303.15 K)

V₂ ≈ 1,548.5 L

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a chemical reaction that is mediated by a biological enzyme, as tested in the enzyme presence and concentration experiments, will ___.

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A chemical reaction mediated by a biological enzyme, as tested in enzyme presence and concentration experiments, will exhibit significant changes in reaction rate and efficiency.

Enzymes are specialized proteins that act as catalysts in biological systems, facilitating and accelerating chemical reactions. When a chemical reaction is mediated by a biological enzyme, its presence and concentration have a significant impact on the reaction rate and efficiency.

In enzyme presence experiments, the reaction will show a noticeable difference in its kinetics compared to when the enzyme is absent. The enzyme enhances the reaction by lowering the activation energy required for the reaction to proceed, resulting in a faster rate of product formation.

Additionally, the enzyme's concentration plays a crucial role. Increasing the enzyme concentration generally leads to an increase in reaction rate until all available substrate molecules are saturated with the enzyme. Beyond this point, further increases in enzyme concentration will not have a significant effect on the reaction rate.

Therefore, in enzyme presence and concentration experiments, the results will demonstrate the crucial role of enzymes in mediating chemical reactions by influencing the rate and efficiency of the reaction.

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Tooth enamel is composed of hydroxyapatite, whose simplest formula is Cas (PO4)3OH, and whose corresponding Ksp 6.8 x 10 2. As discussed in the "Chemistry and Life" box in Section 17.5 in the textbook, fluoride in fluorinated water or in toothpaste reacts with hydroxyapatite to form fluoroapatite Cas (PO4)3F, Ksp1.0 x 10-60

Answers

Fluoride ions can replace hydroxide ions in hydroxyapatite to form fluoroapatite, which has a lower solubility product constant (Ksp) than hydroxyapatite. The reaction is as follows:

Cas(PO4)3OH (s) + 3F- (aq) ⇌ Cas(PO4)3F (s) + 3OH- (aq)

The equilibrium constant for this reaction is given by:

K = ([Cas(PO4)3F][OH-]^3)/([Cas(PO4)3OH][F-]^3)

At equilibrium, the Ksp of fluoroapatite is given by:

Ksp = [Cas(PO4)3F][OH-]^3

We can use these equations to determine the concentration of fluoride ions required to precipitate hydroxyapatite and form fluoroapatite. At this point, the concentration of hydroxyapatite will be equal to its solubility product constant.

Using the Ksp values given in the problem, we have:

Ksp for hydroxyapatite = 6.8 x 10^(-2)

Ksp for fluoroapatite = 1.0 x 10^(-60)

Since the Ksp for fluoroapatite is much smaller than that of hydroxyapatite, fluoroapatite is much less soluble and more stable than hydroxyapatite.

To determine the concentration of fluoride ions required to precipitate hydroxyapatite, we can set the Ksp of hydroxyapatite equal to the equilibrium constant (K) for the reaction between hydroxyapatite and fluoride ions, and solve for the concentration of fluoride ions:

Ksp for hydroxyapatite = K

6.8 x 10^(-2) = ([Cas(PO4)3F][OH-]^3)/([Cas(PO4)3OH][F-]^3)

[F-]^3 = ([Cas(PO4)3F]/[Cas(PO4)3OH]) x ([OH-]/Ksp for hydroxyapatite)

[F-]^3 = (1.0 x 10^(-60))/(6.8 x 10^(-2)) x (1/[OH-]^3)

[F-]^3 = 1.47 x 10^(-59)/[OH-]^3

Taking the cube root of both sides, we get:

[F-] = (1.47 x 10^(-59)/[OH-]^3)^(1/3)

Substituting the value of Ksp for hydroxyapatite, we get:

[F-] = (1.47 x 10^(-59)/(1 x 10^(-24))^3)^(1/3) = 2.8 x 10^(-4) M

Therefore, a fluoride ion concentration of at least 2.8 x 10^(-4) M is required to precipitate hydroxyapatite and form fluoroapatite.

This explains how fluoride in fluorinated water or in toothpaste can help prevent tooth decay by strengthening tooth enamel through the formation of fluoroapatite.

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Why is it important to maintain equivalent proportions of reagents in the synthesis of methyl salicylate by aldol condensation?
Aldol Condensation:
In organic chemistry, an aldol condensation is a reaction that produces or β
-hydroxyketone from two carbonyl molecules of aldehydes or ketones (an aldol reaction). After that, dehydration takes place and forms Conjugated enone.

Answers

It is important to maintain equivalent proportions of reagents in the synthesis of methyl salicylate by aldol condensation for several reasons; To achieve maximum yield, avoid side reactions, and control the reaction rate.

To achieve maximum yield; The aldol condensation reaction is a reversible reaction, and the yield of the product is dependent on the concentrations of the reactants. If one of the reactants is present in excess, it will not participate fully in the reaction, leading to a lower yield of the product.

To avoid side reactions; The aldol condensation reaction is a multi-step reaction, and if the reactants are not present in equivalent proportions, it can lead to side reactions, such as the formation of unwanted by-products. These by-products can reduce the yield of the desired product and complicate the purification process.

To control the reaction rate; The rate of the aldol condensation reaction is dependent on the concentrations of the reactants. If one of the reactants is present in excess, it can increase the reaction rate, leading to the formation of undesired products.

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the same object used in problem 1 is completely submerged in an unknown liquid. if the mass balance reads 75 g, what is the density of the unknown liquid?

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The density of the unknown liquid can be found using the equation: density of liquid = density of object / (mass of liquid displaced). Using the given values, the density of the unknown liquid is calculated to be 0.14 g/cm³.

To find the density of the unknown liquid, we can use the equation:

density of object = density of liquid × (mass of liquid displaced)

Since the object is completely submerged, the mass of the liquid displaced is equal to the mass of the object, which is 75 g. Therefore, we can rewrite the equation as:

density of liquid = density of object / (mass of liquid displaced)

We know the density of the object is 10.5 g/cm³, so:

density of liquid = 10.5 g/cm³ / 75 g = 0.14 g/cm³

Therefore, the density of the unknown liquid is 0.14 g/cm³.

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The indicator thymolphthalein has Ka = 7.9 x 10-11. Over what approximate pH range does it change color? 10.5 to 11.5 2.9 to 4.9 9.1 to 11.1 6.5 to 7.5

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Thymolphthalein is an acid-base indicator that changes color at a certain pH range. Its Ka is 7.9 x 10^-11, which means it is a weak acid. Thymolphthalein changes color when it is in the basic form, and the pH range for this color change can be determined by calculating the pKa value.

The pKa of thymolphthalein is approximately 10.1, which means that the pH range for the color change is within one unit above and below the pKa value.

Therefore, the pH range for the color change of thymolphthalein is approximately 9.1 to 11.1. In this pH range, the indicator will change from colorless to blue, indicating the presence of a base.

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Benzene referring to your model, explain why there is no directionality for a substituent group coming off of benzene.

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Benzene is a planar molecule with a delocalized π electron system. This means that the electrons are distributed over the entire molecule and there is no localized π bond. As a result, the substituent group can bond to any of the six carbon atoms in the ring and the electrons will be delocalized throughout the entire ring. Therefore, there is no directionality for a substituent group coming off of benzene. This is why benzene is often used as a reference molecule in organic chemistry.
Hi! I'd be happy to help you with your question. In reference to the benzene model, there is no directionality for a substituent group coming off of benzene because of the following reasons:

1. Benzene is a planar, hexagonal molecule with six carbon atoms connected by alternating single and double bonds.
2. The carbon atoms in benzene are sp2 hybridized, which means that they have three hybrid orbitals (one for each of the three sigma bonds with adjacent carbon atoms and hydrogen) and one unhybridized p orbital.
3. The p orbitals of adjacent carbon atoms overlap to form a delocalized pi electron cloud above and below the plane of the benzene ring. This delocalized pi cloud is responsible for the aromatic character and stability of benzene.
4. Since the electrons in the pi cloud are delocalized, there is no localized double bond or single bond in benzene. This means that when a substituent group is attached to a carbon atom in benzene, it doesn't change the electron density in any specific direction, resulting in a lack of directionality for the substituent group.

In summary, there is no directionality for a substituent group coming off of benzene because of its planar structure, sp2 hybridization, and the delocalization of pi electrons throughout the ring.

There is no directionality for a substituent group coming off of benzene because the delocalized electrons create a uniform electron distribution around the ring. This causes the substituent group to interact with the entire benzene ring rather than a specific carbon atom, leading to the lack of directionality for the substituent group.

The reason why there is no directionality for a substituent group coming off of benzene is due to the delocalization of electrons within the benzene ring. The six carbon atoms in the ring are sp2 hybridized, which means they have three electron domains arranged in a trigonal planar geometry. This allows for the formation of a pi-bond system, where the p orbitals of each carbon atom overlap to create a continuous ring of electron density.
This delocalized pi-bond system is responsible for the unique properties of benzene, including its stability and lack of reactivity towards electrophilic attack.
The electrons in the pi-bond system are delocalized, there is no specific location or orientation for the substituent group to interact with. Unlike in a typical alkane or alkene molecule, where the substituent group is attached to a specific carbon atom with a defined spatial orientation, in benzene the substituent group can interact with any of the carbon atoms in the ring. This lack of directionality is due to the symmetrical nature of the pi-bond system and the delocalization of electrons throughout the ring.
The delocalized pi-bond system in benzene is responsible for the lack of directionality for a substituent group coming off of the ring. Because the pi-electrons are spread out across the ring, the substituent group can interact with any carbon atom in the ring without a specific orientation or location.
Benzene is an aromatic compound with a planar, hexagonal ring structure consisting of alternating single and double carbon-carbon bonds. Due to its resonance structure, the electrons in the double bonds are delocalized over the entire ring, resulting in evenly distributed electron density.

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Name the nitrile(s) with formula c6h11n that contain two methyl branches on the same carbon of the main chain.

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The nitrile with the formula C6H11N that contains two methyl branches on the same carbon of the main chain is called 2,2-dimethylpropionitrile.

It has the following structure: (CH3)2C(CH2)2CN.

In this molecule, the carbon chain contains three carbon atoms (propyl group), and there are two methyl (CH3) groups attached to the second carbon atom (from the left). The nitrile functional group (-C≡N) is attached to the third carbon atom of the chain.

Therefore, the correct name for this compound is 2,2-dimethylbutyronitrile, not 2,2-dimethylpropionitrile.

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What is the pH of a buffer that consists of 0.79 M CH3NH2 and 0.96 M CH3NH3Cl? (pKb of methylamine (CH3NH2) = 3.35.)

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The pH of the buffer solution is approximately 3.46. Methylamine ([tex]CH_{3}NH_{2}[/tex]) is a weak base, and its conjugate acid is methylammonium chloride ([tex]CH_{3}NH_{3}Cl[/tex]).

The pH of a buffer solution is determined by the dissociation of the weak acid or base in the buffer and the concentration of its conjugate acid or base. The Henderson-Hasselbalch equation relates the pH of a buffer to the concentration of the weak acid and its conjugate base, or the weak base and its conjugate acid.

For this buffer solution, we are given the concentration of [tex]CH_{3}NH_{2}[/tex] and [tex]CH_{3}NH_{3}Cl[/tex], and the pKb of [tex]CH_{3}NH_{2}[/tex]. We can use the pKb value to calculate the Kb value for [tex]CH_{3}NH_{2}[/tex] using the equation pKb + pKb = pKw (where pKw = 14 for water at 25°C).

Kb([tex]CH_{3}NH_{2}[/tex]) = [tex]10^{(-pKb)}[/tex] = [tex]10^{(-3.35)}[/tex]= 4.68 × [tex]10^{(-4)}[/tex]

Using the Henderson-Hasselbalch equation, we can find the pH of the buffer solution: pH = pKb + log([[tex]CH_{3}NH_{3}Cl[/tex]]/[[tex]CH_{3}NH_{2}[/tex]]), pH = 3.35 + log(0.96/0.79), pH = 3.35 + 0.11, pH = 3.46. Therefore, the pH of the buffer solution is approximately 3.46.

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while hydrogen, helium, water, and ammonia can produce the white coloration of jupiter's zones, the brownish color of the belts requires more complex chemistry.

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The belts of Jupiter exhibit a brownish color due to the involvement of more complex chemical processes.

What causes the brownish coloration in Jupiter's belts?

Jupiter's zones and belts display distinct colors. While hydrogen, helium, water, and ammonia contribute to the white coloration of the zones, the belts' brownish hues involve a more intricate chemistry. The belts are composed of thick clouds of ammonia and other compounds, which interact with solar ultraviolet radiation and cosmic rays. These interactions result in the formation of complex organic molecules and aerosols that give rise to the brown coloration. The precise mechanisms responsible for the specific chemical reactions and the formation of these compounds are still being investigated by scientists studying the dynamics of Jupiter's atmosphere.

Jupiter's atmosphere is a fascinating subject of study, and its intricate color patterns offer insights into the planet's atmospheric composition and dynamics. Researchers employ various methods, including remote sensing and spacecraft observations, to study Jupiter's clouds and decipher the underlying chemical processes. By analyzing the spectral signatures of different regions and conducting laboratory experiments, scientists strive to understand the precise mechanisms that create the brown coloration in Jupiter's belts. These investigations help deepen our understanding of planetary atmospheres and provide valuable information for comparative studies of other gas giants in the solar system.

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Consider the reaction 3 CuO + 2A1 --> 3Cu + Al2O3 Calculate the number of moles of Al2O3 that can form when 3.47 moles of Al reacts with 6.04 moles Cuo. a.6.04 moles b.3.47 moles c.6.94 moles d.5.21 moles e.1.74 moles

Answers

1 mole is equal to 6. 022 x 10 23 particles, which is also known as the Avogadro's constant. To compute the amount of moles of any material in the sample, just divide the substance's stated weight by its molar mass.

we first need to determine which reactant is limiting and which is in excess. We can do this by using the mole ratio from the balanced chemical equation:

3 CuO + 2 Al --> 3 Cu + Al2O3

For every 2 moles of Al that react, 1 mole of Al2O3 is produced. Therefore, the maximum number of moles of Al2O3 that can form is:

(3.47 moles Al) / (2 moles Al per 1 mole Al2O3) = 1.735 moles Al2O3

However, we also need to consider the amount of CuO available. For every 3 moles of CuO that react, 1 mole of Al2O3 is produced. Therefore, the maximum number of moles of Al2O3 that can form based on the amount of CuO available is:

(6.04 moles CuO) / (3 moles CuO per 1 mole Al2O3) = 2.013 moles Al2O3

Since we can only produce as much Al2O3 as the limiting reactant allows, the actual yield of Al2O3 will be the smaller of the two values calculated above, which is 1.735 moles Al2O3. Therefore, the answer is e. 1.74 moles.


To solve this problem, we'll use the stoichiometry of the balanced chemical equation: 3 CuO + 2 Al → 3 Cu + Al2O3.

Given: 3.47 moles of Al and 6.04 moles of CuO.

First, determine the number of moles of Al2O3 that can form from Al:
(3.47 moles Al) x (1 mole Al2O3 / 2 moles Al) = 1.735 moles Al2O3

Next, determine the number of moles of Al2O3 that can form from CuO:
(6.04 moles CuO) x (1 mole Al2O3 / 3 moles CuO) = 2.013 moles Al2O3

Since the number of moles of Al2O3 formed from Al (1.735 moles) is less than the number of moles of Al2O3 formed from CuO (2.013 moles), Al is the limiting reactant. Therefore, the maximum number of moles of Al2O3 that can form is 1.735 moles (rounded to 1.74 moles).

Your answer: e. 1.74 moles

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c) (8 pts) for each reaction, predict what mechanism will account for the major product(s) formed (sn1, sn2, e1, e2 or n.r.). no explanation or drawing of the product(s) is needed

Answers

Predicting the mechanism for each reaction can be done based on several factors, including the nature of the substrate, the nucleophile/base, the leaving group, and the reaction conditions. However, without specific reactions provided, it is difficult to give precise predictions. Instead, I will provide a general overview of the different mechanisms and the factors that influence their occurrence.

SN1 (Substitution Nucleophilic Unimolecular) reactions occur when the rate-determining step involves the formation of a carbocation intermediate. This mechanism is favored with tertiary substrates, weak nucleophiles, and polar protic solvents.

SN2 (Substitution Nucleophilic Bimolecular) reactions involve a concerted one-step process where the nucleophile attacks the substrate as the leaving group departs. SN2 reactions are favored with primary substrates, strong nucleophiles, and aprotic solvents.

E1 (Elimination Unimolecular) reactions occur when the rate-determining step involves the formation of a carbocation intermediate, followed by the elimination of a leaving group. E1 reactions are favored with tertiary substrates, weak bases, and polar protic solvents.

E2 (Elimination Bimolecular) reactions involve a concerted one-step process where a base abstracts a proton while a leaving group departs. E2 reactions are favored with primary substrates, strong bases, and aprotic solvents.

N.R. (No Reaction) indicates that the given reactants and conditions are not conducive to any of the mentioned mechanisms, and therefore, no significant reaction is expected.

Remember that these predictions are general guidelines, and specific reactions may deviate from these trends depending on the exact circumstances. It is crucial to consider the specific reagents, substrates, and reaction conditions to make accurate predictions for individual reactions.

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For the hydrolysis reaction shown below ΔH is 8 kJ/mol and ΔS is 50.5 J/molK. What is ΔG for the reaction at 55C? Enter your answer with units of kJ/mol.
ballyhoo + H20 <-> bally + hoo

Answers

The ΔG for the hydrolysis reaction at 55°C is approximately 7.98 kJ/mol.

To determine ΔG for the hydrolysis reaction of ballyhoo + H20 ↔ bally + hoo at 55C, we need to use the Gibbs-Helmholtz equation:

ΔG = ΔH - TΔS, where T is the temperature in Kelvin.

First, we convert 55°C to Kelvin by adding 273.15, giving us 328.15 K.

Then, we plug in the given values:

ΔG = 8 kJ/mol - (328.15 K)(50.5 J/molK)/1000 = 8 kJ/mol - 16.6 J/mol = 7.98 kJ/mol.

Therefore, the ΔG for the hydrolysis reaction = 7.98 kJ/mol.

This negative ΔG value indicates that the reaction is spontaneous, as the products are favored over the reactants.

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Silver can be plated out of a solution containing Ag+ according to the half-reaction:
Ag+(aq)+e−→Ag(s)
How much time (in minutes) does it take to plate 12 g of silver using a current of 3.0 A ? The answer is 6.0 x 10^1 min. Could you please explain and list steps.

Answers

It takes approximately 6.0 x [tex]10^1[/tex] minutes to plate 12 g of silver using a current of 3.0 A.

To determine the time required to plate a given amount of silver, we can use Faraday's law of electrolysis, which states that the amount of substance (in moles) deposited or liberated at an electrode is directly proportional to the quantity of electricity (in coulombs) passing through the electrolyte.

Convert the mass of silver (12 g) to moles. The molar mass of silver (Ag) is 107.87 g/mol, so 12 g is equivalent to (12 g) / (107.87 g/mol) = 0.111 mol.

The half-reaction shows that 1 mole of [tex]Ag^{+}[/tex] requires 1 mole of electrons (e-) for plating. Therefore, 0.111 mol of [tex]Ag^{+}[/tex] will require 0.111 mol of electrons.

Use Faraday's law, which states that 1 mole of electrons is equal to 1 Faraday (F), which is approximately 96,485 C (coulombs).

Therefore, 0.111 mol of electrons is equal to (0.111 mol) x (96,485 C/mol) = 10,704.94 C.

Now, we can use the formula I = Q/t, where I is the current (3.0 A), Q is the charge in coulombs (10,704.94 C), and t is the time in seconds.

Rearranging the formula, we have t = Q/I. Plugging in the values, t = (10,704.94 C) / (3.0 A) = 3,568.31 s.

Finally, convert seconds to minutes by dividing by 60: t = 3,568.31 s / 60 s/min ≈ 6.0 x [tex]10^1[/tex] min.

Therefore, it takes approximately 6.0 x [tex]10^1[/tex] minutes to plate 12 g of silver using a current of 3.0 A.

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calculate δg°(gibbs free energy) for the cell you constructed of cu/ c12h22cuo14 and sn/cuso4 , using the cell voltage you measured for that cell (from q6). show your work and include units

Answers

Replace E° with the value you measured and calculate the Gibbs free energy change, ΔG°.  To calculate the Gibbs free energy (ΔG°) for the cell you constructed, we'll use the following equation: ΔG° = -nFE°


To calculate δg° for the cell of Cu/C12H22CuO14 and Sn/CuSO4, we first need to use the Nernst equation to find the standard cell potential (E°cell) for this reaction. The Nernst equation relates the cell potential to the Gibbs free energy change (δG) and the standard cell potential: E°cell = -δG°/nF + E°red,  The standard reduction potentials (E°red) for the two half-reactions involved in the cell are: Cu2+ + 2e- -> Cu (s) E°red = +0.34 V, Sn2+ + 2e- -> Sn (s) E°red = -0.14 V
E°cell = -0.83 V
E°cell = -δG°/nF + E°red
-1.17 V = -δG°/(2*96,485 C/mol)
δG° = 2*96,485 C/mol * 1.17 V

δG° = -224.44 kJ/mol
The standard Gibbs free energy change for the cell reaction is -224.44 kJ/mol. This value is negative, which means that the reaction is spontaneous under standard conditions (at 25°C, 1 atm, and with concentrations of 1 M for all species). The units for δG° are kJ/mol.

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What is the value of ii, the Van't Hoff factor, for the unknown compound (a nonelectrolyte) assumed to be

Answers

Without specific information about the unknown compound, it is not possible to determine the value of the Van't Hoff factor (i) for the compound. The Van't Hoff factor represents the number of particles that a compound dissociates into when it dissolves in a solvent. For non-electrolytes, such as the assumed unknown compound, the Van't Hoff factor is typically equal to 1 since non-electrolytes do not dissociate into ions in solution.

The value of the Van't Hoff factor can vary for different compounds, so additional information is necessary to determine its specific value.

The Van't Hoff factor (i) is a measure of the extent to which a compound dissociates into ions when it dissolves in a solvent. It is typically represented as the ratio of moles of particles in solution to moles of the compound dissolved.

For non-electrolytes, which are compounds that do not dissociate into ions when dissolved, the Van't Hoff factor is generally considered to be 1. Non-electrolytes exist as intact molecules in solution and do not produce ions.

However, without specific information about the unknown compound, it is not possible to determine the value of the Van't Hoff factor for the compound with certainty. The Van't Hoff factor can vary depending on the specific properties of the compound and its behavior in solution. Additional information about the compound's characteristics and behavior in solution would be needed to determine the precise value of the Van't Hoff factor for the unknown compound.

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what is the empirical formula of an unknown compound that contains 60.3% of magnesium and 39.7% of oxygen? element molar mass (g/mol) carbon 12.01 hydrogen 1.0079 magnesium 24.931 nitrogen 14.01 oxygen 16.00 phosphorus 30.97 a. mg2o2 b. mg2o c. mgo2 d. mgo e. mg1.77o3.56

Answers

To determine the empirical formula of the unknown compound containing 60.3% magnesium and 39.7% oxygen, we need to find the ratio of atoms present in the compound. We can assume a 100g sample, which means that 60.3g is magnesium and 39.7g is oxygen.

Next, we need to convert the mass of each element into moles using their molar masses. For magnesium, we have 60.3g / 24.31g/mol = 2.48 mol. For oxygen, we have 39.7g / 16.00g/mol = 2.48 mol.
Then, we divide both moles by the smaller of the two, which is 2.48. This gives us a ratio of 1:1. Therefore, the empirical formula of the compound is M gO.

Option (d) M gO is the correct empirical formula for the unknown compound. Option (a) M g2O2 and option (b) M g2O are incorrect because they imply that there are more than one magnesium atom in the formula. Option (c) M gO2 and option (e) M g1.77O3.56 are incorrect because they do not have the simplest whole-number ratio of atoms.

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A 7 Liter container will hold about 12 g of which of the following gases at 0°C and I atm?

Answers

To determine which gas will occupy about 7 liters at 0°C and 1 atm, we need to use the ideal gas law equation, PV = nRT, where P is pressure, V is volume, n is the number of moles of gas, R is the gas constant, and T is the temperature in Kelvin.

We can rearrange the ideal gas law equation to solve for n, the number of moles of gas:

n = PV/RT

At standard temperature and pressure (STP), which is 0°C and 1 atm, 1 mole of any gas occupies a volume of 22.4 liters. Therefore, if we know the mass of a gas, we can convert it to moles and then use the ideal gas law equation to determine the volume it will occupy at STP.

Assuming ideal gas behavior, the gas that will occupy about 7 liters at 0°C and 1 atm is hydrogen gas (H2). At STP, 1 mole of H2 occupies a volume of 22.4 liters, and 12 grams of H2 is equivalent to 0.6 moles. Using the ideal gas law equation, we can calculate the volume of 0.6 moles of H2 at 0°C and 1 atm:

n = PV/RT

0.6 moles = (1 atm) x (7 L) / (0.0821 L·atm/mol·K) x (273 K)

n = 0.6 moles

V = 7 L

Therefore, the gas that will occupy about 7 liters at 0°C and 1 atm is hydrogen gas, with a mass of approximately 12 grams.

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(a) A student determines that the value of Ka for HClO = 4.8×10-8 . What is the value of pKa?
(b) A student determines that the value of pKa for HF = 3.00 . What is the value of Ka?

Answers

[tex](a) pKa for HClO = 7.32(b) Ka for HF = 1.00×10-3.00[/tex]

(a) To find pKa, we use the formula: pKa = -log(Ka). Substituting the given value of Ka for HClO in this formula, we get pKa = -log(4.8×10-8) = 7.32.

(b) To find Ka, we use the formula: Ka = 10^(-pKa). Substituting the given value of pKa for HF in this formula, we get [tex]Ka = 10^(-3.00) = 1.00×10^(-3.00) = 1.00×10^(-3) = 1.00×10^(-3.00).[/tex]

In both cases, we use the relationship between Ka and pKa, which are measures of the strength of an acid. Ka is the acid dissociation constant, which describes the extent to which an acid dissociates into its constituent ions in solution. pKa is the negative logarithm of Ka, and provides a convenient way to compare the relative strengths of different acids.

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1. What is the primary limiting factor that determines where life can exist? 2. What determines the "optimum" survival condition for a cell? 3. What is the most important influence on cellular growth and survival? 4. From the information given in the laboratory, distinguish between each of the following terms. a. Neutrophile: b. Acidophile: c. Alkalinophile:

Answers

The primary limiting factor that determines where life can exist is the availability of liquid water. Liquid water is essential for various biological processes, and its presence largely determines the habitability of an environment.

The "optimum" survival condition for a cell is determined by a combination of factors, such as temperature, pH, nutrient availability, and the presence of essential elements. Each species has a specific set of conditions that promote optimal cellular function and growth.

1. The primary limiting factor that determines where life can exist is the availability of water, as all known life requires water to survive.
2. The optimum survival condition for a cell is determined by a variety of factors, including temperature, pH, nutrient availability, and oxygen levels. These conditions can vary depending on the specific type of cell and its environment.
3. The most important influence on cellular growth and survival is the availability of nutrients, as cells require a steady supply of energy and building blocks to maintain their functions and reproduce.
4. a. Neutrophile: a type of microorganism that grows best in neutral pH conditions (pH 6.5-7.5).
b. Acidophile: a type of microorganism that grows best in acidic pH conditions (pH below 5.5).
c. Alkalinophile: a type of microorganism that grows best in alkaline pH conditions (pH above 8.5).

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cl2(g) 2e-2cl-(aq) pb(s)pb2 (aq) 2e- identify each of the following half-reactions as either an oxidation half-reaction or a reduction half-reaction.

Answers

The half-reaction involving the conversion of chlorine gas (Cl2) to chloride ions (2Cl-) by gaining 2 electrons is a reduction half-reaction because the Cl2 molecule is gaining electrons and being reduced to chloride ions.

On the other hand, the half-reaction involving the conversion of lead solid (Pb) to lead ions (Pb2+) by losing 2 electrons is an oxidation half-reaction because the Pb atom is losing electrons and being oxidized to Pb2+ ions.

In general, oxidation half-reactions involve the loss of electrons and an increase in the oxidation state, while reduction half-reactions involve the gain of electrons and a decrease in the oxidation state. The overall reaction can be obtained by combining the two half-reactions, ensuring that the number of electrons gained by one half-reaction equals the number of electrons lost by the other half-reaction.

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The half-reaction Cl2(g) + 2e- → 2Cl-(a q) is a reduction half-reaction, and the half-reaction Pb(s) → Pb2+(a q) + 2e- is an oxidation half-reaction.

In a redox reaction, one species loses electrons and is oxidized, while another species gains electrons and is reduced. In the given half-reactions, the chlorine molecule gains two electrons to form chloride ions, which means it has been reduced. Therefore, the half-reaction Cl2(g) + 2e- → 2Cl-(a q) is a reduction half-reaction.

On the other hand, the lead atom loses two electrons to form Pb2+ ions, which means it has been oxidized. Therefore, the half-reaction Pb(s) → Pb2+(a q) + 2e- is an oxidation half-reaction.

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how many joules are released when 1.70 mol of 239pu decays if each nucleus releases 5.243 mev? × 10 (select) j enter your answer in scientific notation.

Answers

The amount of energy released when 1.70 mol of 239Pu decays is 8.57 × 10^11 J.

To solve this problem, we need to use the following formula:
Energy released = number of nuclei × energy released per nucleus
First, we need to convert the given energy per nucleus from MeV to joules:
5.243 MeV × 1.602 × 10^-13 J/MeV = 8.39 × 10^-13 J
Now we can plug in the values:
Number of nuclei = 1.70 mol × 6.022 × 10^23 nuclei/mol = 1.02 × 10^24 nuclei
Energy released = 1.02 × 10^24 nuclei × 8.39 × 10^-13 J/nucleus = 8.57 × 10^11 J
Therefore, the amount of energy released when 1.70 mol of 239Pu decays is 8.57 × 10^11 J.

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a. Provide an equation for the acid-catalyzed condensation of ethanoic (acetic) acid and 3- methylbutanol (isopentyl alcohol). Please use proper condensed structural formulas. Compare this product with the ester that you would isolate from the esterification of 4-methylpentanoic acid with methanol. Provide an equation for this reaction as well. Are these products isomers and if so what type of isomer are they?
b. Plan how you will do this organic synthesis, i.e. what is the limiting reactant (acetic acid or isopentyl alcohol) and what would be in excess. To begin, consult the Reagents Table in the lab experimental section and determine which compound is the limiting reactant. Show work for any necessary calculations to receive full credit.

Answers

A. These two products are isomers, specifically structural isomers, because they have the same molecular formula but different arrangements of atoms.

B. We should use a slight excess of ethanoic acid to ensure that all of the 3-methylbutanol is consumed.

A.

The equation for the acid-catalyzed condensation of ethanoic acid and 3-methylbutanol is:

[tex]CH_3COOH + (CH_3)_2CHCH_2CH_2OH - > CH_3COO(CH_2)_2CH(CH_3)_2 + H_2O[/tex]

The product formed is isopentyl acetate, which is an ester.

The equation for the esterification of 4-methylpentanoic acid with methanol is:

[tex]CH_3COOH + CH_3OH - > CH_3COOCH_3 + H_2O[/tex]

The product formed is methyl 4-methylpentanoate, which is also an ester.

B.

To determine the limiting reactant, we need to compare the amount of each reactant present and calculate how much product can be formed from each.

First, we need to convert the given volume of 3-methylbutanol to mass:

density of 3-methylbutanol = 0.81 g/mL

mass of 3-methylbutanol = density x volume = 0.81 g/mL x 5.00 L = 405 g

Next, we calculate the number of moles of each reactant:

moles of ethanoic acid = 25.0 mL x 1 L/1000 mL x 1.049 g/mL / 60.05 g/mol = 0.00436 mol

moles of 3-methylbutanol = 405 g / 88.15 g/mol = 4.60 mol

Based on these calculations, 3-methylbutanol is the limiting reactant because it has fewer moles available for the reaction.

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a. The equation for the acid-catalyzed condensation of ethanoic acid and 3-methylbutanol is:

CH3COOH + (CH3)2CHCH2OH → (CH3)2CHCOOCH2CH(CH3)2 + H2O

The product is isopentyl acetate, which is an ester. The condensed structural formula for isopentyl acetate is:

CH3COOCH2CH(CH3)2

The equation for the esterification of 4-methylpentanoic acid with methanol is:

CH3COOH + CH3OH → CH3COOCH3 + H2O

The product is methyl 4-methylpentanoate, which is also an ester. The condensed structural formula for methyl 4-methylpentanoate is:

CH3COOCH2CH(CH3)CH2CH3

These products are isomers because they have the same molecular formula but different structures. Specifically, they are structural isomers.

b. To determine the limiting reactant, we need to calculate the moles of each reactant. The molar mass of ethanoic acid is 60.05 g/mol and the molar mass of 3-methylbutanol is 88.15 g/mol.

Assuming we have 1 mole of each reactant:

- Moles of ethanoic acid = 1 mole / 60.05 g/mol = 0.01665 mol
- Moles of 3-methylbutanol = 1 mole / 88.15 g/mol = 0.01134 mol

Since we need 1 mole of ethanoic acid for every 1 mole of 3-methylbutanol to react completely, we can see that ethanoic acid is the limiting reactant. This means that isopentyl alcohol would be in excess.

To perform this organic synthesis, we would mix ethanoic acid and 3-methylbutanol together in the presence of an acid catalyst (such as sulfuric acid) and heat the mixture to promote the reaction. The product (isopentyl acetate) could then be isolated and purified using techniques such as distillation or extraction.

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draw a reasonable reaction mechanism (include all non-zero formal charges on the appropriate atom) for the synthesis of 1,1-diphenylethanol using the curved arrow formalism starting from bromobenzene

Answers

The synthesis of 1,1-diphenylethanol from bromobenzene involves the formation of a Grignard reagent, nucleophilic addition to a carbonyl group, protonation, and rearrangement of the intermediate.

Here is a proposed reaction mechanism for the synthesis of 1,1-diphenylethanol from bromobenzene using the curved arrow formalism, involves the formation of a Grignard reagent, nucleophilic addition to a carbonyl group, protonation, and rearrangement of the intermediate.

Step 1: Formation of the Grignard reagent

The reaction starts with the formation of the Grignard reagent from bromobenzene and magnesium metal in the presence of dry ether.

Step 2: Nucleophilic addition of the Grignard reagent to the carbonyl group

The Grignard reagent acts as a nucleophile and attacks the carbonyl carbon of benzophenone, forming an alkoxy magnesium intermediate.

Step 3: Protonation of the alkoxy magnesium intermediate

The alkoxy magnesium intermediate is protonated by water, leading to the formation of the corresponding alcohol.

Step 4: Rearrangement of the alcohol

The alcohol undergoes a rearrangement to form 1,1-diphenylethanol. This step involves the migration of a hydrogen atom from the carbon adjacent to the hydroxyl group to the oxygen atom, followed by the migration of the phenyl group from the oxygen atom to the carbon atom.

The final product is 1,1-diphenylethanol, which is obtained from the reaction of bromobenzene with benzophenone in the presence of magnesium metal and dry ether, followed by protonation and rearrangement of the intermediate.

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Consider the reduction of 4-t-butylcyclohexanone. If the procedure calls for 163 mg of 4-t-butylcyclohexanone, what mass of sodium borohydride should be added? Number 13.2 mg Hint Previous Give Up & View Solution Check Answer Next Exit The molar mass of 4-t-butylcyclohexanone is 154.25. The molar mass of sodium borohydride is 37.83

Answers

161 mg of sodium borohydride should be added for the reduction of 163 mg of 4-t-butylcyclohexanone.

To determine the mass of sodium borohydride required for the reduction of 163 mg of 4-t-butylcyclohexanone, we first need to calculate the number of moles of 4-t-butylcyclohexanone.
Using the formula weight of 4-t-butylcyclohexanone (154.25 g/mol), we can calculate that 163 mg is equal to 0.00106 moles.
Next, we need to determine the stoichiometry of the reaction between 4-t-butylcyclohexanone and sodium borohydride. The balanced equation is:
4-t-butylcyclohexanone + 4 NaBH4 → 4-t-butylcyclohexanol + 4 NaBO2 + B2H6
From the equation, we can see that for every mole of 4-t-butylcyclohexanone, we need four moles of sodium borohydride. Therefore, we need 0.00425 moles of sodium borohydride for the reduction of 163 mg of 4-t-butylcyclohexanone.
Finally, using the molar mass of sodium borohydride (37.83 g/mol), we can calculate the mass of sodium borohydride needed:
mass of NaBH4 = 0.00425 moles × 37.83 g/mol = 0.161 g or 161 mg
Therefore, 161 mg of sodium borohydride should be added for the reduction of 163 mg of 4-t-butylcyclohexanone.

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A silver atom in a solid oscillates in simple harmonic motion in some direction with a frequency of 10 12
/sec. What is the force constant of the bonds connecting one atom with the other? (Mole wt. of silver =108 and Avagadro number =6.02×10 23
gm mol −1
).

Answers

We are given the following information:
- The silver atom is oscillating in simple harmonic motion
- Frequency of oscillation = 10^12 Hz
- Mole weight of silver = 108 g/mol
- Avogadro's number = 6.02 × 10^23 atoms/mol

First, let's find the mass of a single silver atom:
mass of one atom = (Mole weight of silver) / (Avogadro's number)
mass of one atom = (108 g/mol) / (6.02 × 10^23 atoms/mol) = 1.79 × 10^-22 g

Now we can convert the mass to kg:
mass of one atom = 1.79 × 10^-22 g × (1 kg / 1000 g) = 1.79 × 10^-25 kg

In simple harmonic motion, the angular frequency (ω) can be related to the given frequency (f) as follows:
ω = 2πf
ω = 2π(10^12 Hz) = 6.283 × 10^12 rad/s

The force constant (k) can be related to the mass (m) and angular frequency (ω) using the formula:
k = mω^2

Now, plug in the values for mass and angular frequency:
k = (1.79 × 10^-25 kg) × (6.283 × 10^12 rad/s)^2 = 706.6 N/m

So, the force constant of the bonds connecting one silver atom with the other is approximately 706.6 N/m.

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