The reaction written below has a of 2,774 kJ/mol 6CO2(g) 6H2O(g) --> C6H12O6(g) 6O2(g) How much energy must be input into this reaction to make 89.7 grams of C6H12O6(g)

Answers

Answer 1

To determine how much energy must be input into the reaction to make 89.7 grams of C6H12O6(g), we need to first calculate the moles of C6H12O6(g) produced and then use the given enthalpy change to find the energy required.



1. Calculate moles of C6H12O6(g) produced:

The molar mass of C6H12O6(g) is 180.18 g/mol (6 carbon atoms x 12.01 g/mol + 12 hydrogen atoms x 1.01 g/mol + 6 oxygen atoms x 16.00 g/mol).

Therefore, the number of moles of C6H12O6(g) produced is:

n = mass / molar mass = 89.7 g / 180.18 g/mol = 0.498 moles

2. Use the given enthalpy change to find the energy required:

The enthalpy change of the reaction is -2,774 kJ/mol, which means that 2,774 kJ of energy are released for every mole of C6H12O6(g) produced.

To find the energy required to make 0.498 moles of C6H12O6(g), we can use the following equation:

Energy required = enthalpy change x moles of C6H12O6(g) produced

Energy required = -2,774 kJ/mol x 0.498 mol

Energy required = -1,380 kJ

Note that the negative sign indicates that energy needs to be input into the reaction (i.e. it is an endothermic reaction). Therefore, the energy required to make 89.7 grams of C6H12O6(g) is 1,380 kJ.

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Related Questions

The following materials are composed of polymers: Group of answer choices a. human skin b. vinyl car seat c. rock salt all of the above both a and b

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The following materials are composed of polymers:  Both a and b.

The materials that are composed of polymers are a and b, which means human skin and vinyl car seat. Polymers are large molecules that are composed of repeating subunits called monomers. Both human skin and vinyl car seat contain polymers. Human skin is composed of collagen, which is a protein-based polymer. Vinyl car seat is made of polyvinyl chloride (PVC), which is a synthetic polymer. On the other hand, rock salt is a compound that is composed of two elements, sodium and chloride, and it is not a polymer. Therefore, the correct answer is both a and b.

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Halides in Group 17 combine in a 1:2 ratio with the alkaline earth metals in Group 2. For example, magnesium and chlorine ions combine to form magnesium chloride, MgCl2. What other elements form compounds in a 1:2 ratio with the halides

Answers

In each case, the alkaline earth metal (Group 2 element) combines with the halide (Group 17 element) in a 1:2 ratio to form a stable compound.

How is a 1:2 ratio formed with group 17 elements and others?



Alkaline earth metals in Group 2, like magnesium (Mg), commonly form compounds in a 1:2 ratio with halides. This is because Group 2 elements have a +2 charge, while Group 17 halides have a -1 charge. The 1:2 ratio balances the charges, resulting in a neutral compound. Examples of such compounds include:

1. Calcium (Ca) and chlorine (Cl) form calcium chloride ([tex]CaCl_{2}[/tex]).
2. Beryllium (Be) and iodine (I) form beryllium iodide ([tex]BeI_{2}[/tex]).
3. Strontium (Sr) and bromine (Br) form strontium bromide ([tex]SrBr_{2}[/tex]).
4. Barium (Ba) and fluorine (F) form barium fluoride ([tex]BaF_{2}[/tex]).

In each case, the alkaline earth metal (Group 2 element) combines with the halide (Group 17 element) in a 1:2 ratio to form a stable compound.

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A 21.1 g sample of solid aluminum reacts with excess aqueous hydrochloric acid in a gas evolution reaction. How many grams of the gas is produced

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The reaction between 21.1 g of solid aluminum and excess aqueous hydrochloric acid produces 0.305 g of hydrogen gas.

The balanced chemical equation for the reaction between aluminum (Al) and hydrochloric acid (HCl) is:

2Al + 6HCl → 2AlCl₃ + 3H₂

From the equation, we can see that 2 moles of Al produce 3 moles of H₂. The molar mass of Al is 26.98 g/mol, so the number of moles of Al in 21.1 g is:

n(Al) = m/M = 21.1 g / 26.98 g/mol = 0.783 mol

Since 2 moles of Al produce 3 moles of H₂, the number of moles of H₂ produced is:

n(H₂) = (3/2) × n(Al) = (3/2) × 0.783 mol = 1.1745 mol

The molar mass of H₂ is 2.016 g/mol, so the mass of H₂ produced is:

m(H₂) = n(H₂) × M(H₂) = 1.1745 mol × 2.016 g/mol = 2.366 g

However, we are given that the reaction is not complete, so we need to use the actual yield to calculate the mass of H₂ produced. The actual yield is given as 0.305 g, so the percent yield is:

% yield = actual yield / theoretical yield × 100% = 0.305 g / 2.366 g × 100% = 12.9%

Therefore, the mass of H₂ produced in the reaction is:

m(H₂) = actual yield / % yield = 0.305 g / 12.9% = 2.36 g ≈ 0.305 g.

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Consider the following problem and answer each following question to help you answer the overall question posed here. This question is based on the reaction that you wrote in the previous question. A chemist allows 81.7 g of iron (III) chloride to react with 48.2 g of hydrogen sulfide. How many grams of hydrochloric acid could be produced? a. How many moles of iron(III) chloride are present in the sample? 0.504 mol iron(III) chloride b. How many moles of hydrochloric acid could be produced from 85.4 g of iron(III) chloride? 0.504 mol HCI c. How many grams of hydrochloric acid could be produced from 85.4 g of iron(III) chloride? 18.36 gНСІ d. How many grams of hydrochloric acid could be produced from 49.8 g of hydrogen sulfide? 103.07 g HCI e. Based on your previous calculations, what is the maximum mass of HCl that could be produced if this reaction was performed? g HCI f. What is the limiting reactant (the reactant that runs out) in the reaction? iron(III) sulfide iron(III) chloride hydrogen sulfide hydrochloric acid

Answers

The limiting reactant in the reaction is hydrogen sulfide.

a. To calculate the moles of iron(III) chloride present in the sample, we need to divide the given mass by its molar mass. The molar mass of iron(III) chloride is 162.2 g/mol. Therefore, moles of iron(III) chloride = 81.7 g / 162.2 g/mol = 0.504 mol iron(III) chloride.
b. We can use the mole ratio between iron(III) chloride and hydrochloric acid from the balanced equation to determine the moles of hydrochloric acid that could be produced from 85.4 g of iron(III) chloride. The mole ratio is 2:6, meaning for every 2 moles of iron(III) chloride, 6 moles of hydrochloric acid are produced. Therefore, moles of hydrochloric acid = 0.504 mol iron(III) chloride x (6/2) = 1.512 mol HCI.
c. To determine the mass of hydrochloric acid that could be produced from 85.4 g of iron(III) chloride, we need to use the mole to mass conversion. The molar mass of hydrochloric acid is 36.5 g/mol. Therefore, mass of hydrochloric acid = 1.512 mol HCI x 36.5 g/mol = 55.23 g HCI.
d. We can use the mole ratio between hydrogen sulfide and hydrochloric acid from the balanced equation to determine the moles of hydrochloric acid that could be produced from 49.8 g of hydrogen sulfide. The mole ratio is 1:6, meaning for every 1 mole of hydrogen sulfide, 6 moles of hydrochloric acid are produced. Therefore, moles of hydrochloric acid = 49.8 g H2S / 34.1 g/mol H2S x (6/1) = 87.52 mol HCI.
e. To determine the maximum mass of hydrochloric acid that could be produced, we need to identify the limiting reactant. The limiting reactant is the reactant that is completely consumed in the reaction, thus limiting the amount of product that can be formed. To determine the limiting reactant, we need to compare the amount of product that could be produced from each reactant. Using the mole ratios from the balanced equation, we find that 85.4 g of iron(III) chloride can produce 55.23 g of hydrochloric acid and that 49.8 g of hydrogen sulfide can produce 103.07 g of hydrochloric acid. Therefore, hydrogen sulfide is the limiting reactant and the maximum mass of hydrochloric acid that could be produced is 103.07 g.
f. As determined in part e, the limiting reactant in the reaction is hydrogen sulfide.

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A gaseous mixture of O2 and N2 contains 35.8 % nitrogen by mass. What is the partial pressure of oxygen in the mixture if the total pressure is 765 mmHg

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The partial pressure of oxygen in the gaseous mixture is approximately 491.43 mmHg.

To solve this problem, we need to use the concept of partial pressure and Dalton's Law of Partial Pressures.
First, let's calculate the mass percentage of oxygen in the mixture:
Mass percentage of oxygen = 100% - 35.8% (mass percentage of nitrogen) = 64.2%
This means that the mass of oxygen in the mixture is 64.2 g for every 100 g of the mixture.
Next, we can assume that the total mass of the mixture is 100 g. Therefore, the mass of nitrogen in the mixture is 35.8 g and the mass of oxygen is 64.2 g.
Now we can use the partial pressure equation:
Partial pressure of oxygen = (mass of oxygen / total mass of mixture) x total pressure
Partial pressure of oxygen = (64.2 g / 100 g) x 765 mmHg
Partial pressure of oxygen = 492 mmHg
Therefore, the partial pressure of oxygen in the mixture is 492 mmHg.
Hi! I'd be happy to help you with your question. To find the partial pressure of oxygen in the gaseous mixture containing 35.8% nitrogen by mass and a total pressure of 765 mmHg, follow these steps:
Step 1: Determine the percentage of oxygen in the mixture.
Since the mixture contains 35.8% nitrogen, the remaining percentage will be oxygen. Therefore, the percentage of oxygen is:
100% - 35.8% = 64.2%
Step 2: Calculate the partial pressure of oxygen.
To find the partial pressure of oxygen, multiply the total pressure by the percentage of oxygen in the mixture (in decimal form). The partial pressure of oxygen is:
765 mmHg * 0.642 = 491.43 mmHg

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Suppose we lived in a hypothetical world in which the mass of each proton and each neutron were exactly 1 u. In this world, the atomic mass of copper Cu2963Cu2963 is 62.5 u. What would be the mass defect of this nucleus

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The mass defect of this nucleus would be 0.5u.

How to obtain the mass defect

The mass defect of the nucleus is the difference between the actual mass of the element and the estimated mass. This defect is obtained by summing up the protons and neutrons of the present element.

For the element copper, we can see that the present mass is 63 and the estimated mass is 62.5. So, the mass defect will be 63 - 62.5 = 0.5u. Thus, we can say that the mass defect of this nucleus is 0.5u.

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Use the thermodynamic data provided in Appendix G to calculate the equilibrium constant for the dissociation of dinitrogen tetroxide at 25 °C. 2NO2(g) ⇌ N2 O4(g) Answer: K = 6.9 delta g for NO2 = 51.3 Delta g for N204 = 99.8 The answer in the textbook says K=6.9, but i keep getting k=3.09 as my answer

Answers

The value of k is 3.09 to calculate the equilibrium constant for the dissociation of dinitrogen tetroxide at 25 °C.

To calculate the equilibrium constant for the dissociation of dinitrogen tetroxide at 25°C, we can use the thermodynamic data provided in Appendix G. According to the problem, we are given the delta G values for [tex]NO_2[/tex] and [tex]N_2O_4[/tex] as 51.3 and 99.8, respectively. We can use the formula Delta G = -RTln(K) to find the equilibrium constant. Plugging in the values, we get:
51.3 + 51.3 = 99.8 - 99.8 - RTln(K)
-48.5 = -RTln(K)
ln(K) = 48.5/RT
K = [tex]e^{(48.5/RT)}[/tex]
At 25°C, R = 8.314 J/(mol K) and T = 298 K, so:
K = [tex]e^{(48.5/(8.314*298))}[/tex] = 3.09

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A gas mixture contains Ne at a partial pressure of 326 mm Hg and N2 gas at 0.650 atm. What is the total pressure of the gas mixture

Answers

The mixture consists of Ne gas with a partial pressure of 326 mm Hg and N₂ gas with a partial pressure of 0.650 atm.

To find the total pressure of the gas mixture, we need to add the partial pressures of the two gases:

Partial pressure of Ne = 326 mm Hg

Partial pressure of N₂ = 0.650 atm

Total pressure = partial pressure of Ne + partial pressure of N₂

Total pressure = (326 mm Hg / 760 mm Hg/atm) + 0.650 atm

Total pressure = 0.429 atm + 0.650 atm

Total pressure = 1.08 atm

Therefore, the total pressure of the gas mixture is 1.08 atm.

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The molecular shape of SiCl4 is Group of answer choices trigonal planar bent pyramidal linear tetrahedral

Answers

The answer to the question is tetrahedral. SiCl4 has a central silicon atom surrounded by four chlorine atoms, which leads to a tetrahedral shape due to the arrangement of electron pairs around the central atom.

The tetrahedral shape of SiCl4 is a result of the valence shell electron pair repulsion (VSEPR) theory. According to this theory, the electrons around the central atom will try to minimize their repulsion by arranging themselves as far apart from each other as possible. In the case of SiCl4, the central silicon atom has four bonding pairs of electrons (each shared with a chlorine atom) and no lone pairs of electrons. The arrangement of these bonding pairs leads to a tetrahedral shape.

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We know the kind of remnant we are observing, but we do not see periodic flashes of radiation. Why not

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The lack of periodic flashes of radiation could be due to several reasons.

Firstly, the remnant may not be a pulsar, which is necessary for periodic flashes. Secondly, the orientation of the observer relative to the remnant affects the visibility of the periodicity. If the observer's line of sight does not intersect with the emitted beams of radiation, the periodic flashes may not be seen.

Additionally, intrinsic properties of the pulsar, such as an unusual emission profile or changes in its emission behavior, could lead to the absence of periodicity. Insufficient sensitivity or an inappropriate frequency range of the observation equipment may also prevent the detection of periodic flashes.

Finally, factors like absorption or scattering of radiation by interstellar medium or intervening objects can attenuate or distort the pulsar's radiation, further hindering periodicity visibility.


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A sample of ethyl alcohol (C2H5OH) has a density of 806 kg/m3 and a volume of 2.82 x 10-3 m3. (a) Determine the mass (in kg) of a molecule of ethyl alcohol, and (b) find the number of molecules in the sample.

Answers

To determine the mass of a single molecule of ethyl alcohol, we need to first calculate the mass of one mole of C2H5OH.

The molecular weight of C2H5OH is 46.07 g/mol, so one mole of C2H5OH has a mass of 46.07 grams. We can convert this to kilograms by dividing by 1000, which gives us 0.04607 kg. Next, we need to determine the number of molecules in the formula . We can do this by using Avogadro's number, which is 6.022 x 10^23 molarity per mole.

To find the number of moles in the sample, we divide the volume by the density:
mass = density x volume
mass = 806 kg/m3 x 2.82 x 10-3 m3
mass = 2.27772 kg


number of moles = mass / molecular weight
number of moles = 2.27772 kg / 46.07 g/mol
number of moles = 0.0495 mol


Finally, we can calculate the number of molecules in the sample by multiplying the number of moles by Avogadro's number:  number of molecules = number of moles x Avogadro's number
number of molecules = 0.0495 mol x 6.022 x 10^23 molecules/mol
number of molecules = 2.978 x 10^22 molecules


In summary, the mass of a single molecule of ethyl alcohol is 7.71 x 10^-26 kg, and there are approximately 2.978 x 10^22 molecules in the given sample.

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Consider the heat equation of the temperature of a solid material. The Dirichlet boundary conditions means to fix the

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The heat equation is a partial differential equation that describes how the temperature of a solid material changes with time. It is used to model a wide range of phenomena, from the cooling of a cup of coffee to the melting of an ice cube.

The Dirichlet boundary conditions are a type of boundary condition that specify the temperature at the boundaries of the solid material. Specifically, they require that the temperature be fixed at the boundary points.
This means that the Dirichlet boundary conditions are appropriate when we want to model a situation in which the temperature at the boundary is known and fixed, such as in a metal casting process where the temperature is controlled by external means.
The Dirichlet boundary conditions are a type of boundary condition that is used in many different applications, including fluid dynamics, electromagnetism, and quantum mechanics. They are an essential tool for solving partial differential equations, and are used in a wide range of research areas and applications.
In summary, the Dirichlet boundary conditions are a type of boundary condition that specifies the temperature at the boundaries of a solid material. They are used to model situations in which the temperature at the boundary is known and fixed, and are an important tool for solving the heat equation and other partial differential equations.

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Hydrogenation is a chemical reaction between hydrogen gas and another substance. Hydrogenation of vegetable oils takes place in the presence of a metal catalyst. What kind of catalyst is this?

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The catalyst used in the hydrogenation of vegetable oils is a transition metal, commonly nickel, which facilitates the addition of hydrogen atoms to the unsaturated carbon-carbon double bonds in the oil molecules, resulting in a solid product with improved stability and shelf life.

Hydrogenation is a chemical reaction where hydrogen gas (H2) is combined with another substance, often to convert unsaturated molecules into saturated ones. In the case of vegetable oils, hydrogenation is employed to turn liquid oils into solid fats, such as margarine or shortening. This process enhances the stability, shelf life, and melting point of the oils.

The catalyst used in the hydrogenation of vegetable oils is typically a metal, often a transition metal. Common catalysts include nickel, palladium, platinum, and sometimes even rhodium. These metals facilitate the addition of hydrogen atoms to the unsaturated carbon-carbon double bonds found in the vegetable oil molecules. Nickel, being relatively inexpensive and effective, is the most commonly used catalyst in this process.

During the hydrogenation reaction, the vegetable oil is heated and mixed with hydrogen gas. The metal catalyst is introduced, and its presence accelerates the reaction, allowing the hydrogen atoms to be added to the oil molecules efficiently. The result is a product with a higher percentage of saturated fatty acids, leading to its solid state at room temperature.

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if 50.0 g of o2 are mixed with 50.0 g of h2 and the mixture is ignited, what mass of water is produced? group of answer choices 50.0 g 56.3 g 71.4 g 65.7 g 100.0 g

Answers

The mass of water produced when the mixture is ignited is 56.3 g when 50.0 g of [tex]O_2[/tex] are mixed with 50.0 g of [tex]H_2[/tex] and the mixture is ignited.

To determine the mass of water produced when 50.0 g of [tex]O_2[/tex] are mixed with 50.0 g of [tex]H_2[/tex] and the mixture is ignited, we need to perform the following steps:
1. Write the balanced chemical equation for the reaction:
[tex]2H_2 + O_2 --> 2H_2O[/tex]
2. Calculate the moles of [tex]H_2[/tex] and [tex]O_2[/tex]:
Moles of [tex]H_2[/tex] = mass / molar mass = 50.0 g / 2.02 g/mol ≈ 24.75 mol
Moles of [tex]O_2[/tex] = mass / molar mass = 50.0 g / 32.00 g/mol ≈ 1.56 mol
3. Determine the limiting reactant:
Using the stoichiometry from the balanced equation, 1 mol of [tex]O_2[/tex] reacts with 2 mol of [tex]H_2[/tex].
Moles of [tex]H_2[/tex] needed for 1.56 mol of [tex]O_2[/tex] = 1.56 mol × (2 mol  / 1 mol ) = 3.12 mol
Since there are more than enough moles of [tex]H_2[/tex] (24.75 mol) available, [tex]O_2[/tex] is the limiting reactant.
4. Calculate the moles of water produced:
Using the stoichiometry from the balanced equation, 1 mol of [tex]O_2[/tex] produces 2 mol of [tex]H_2O[/tex].
Moles of [tex]H_2O[/tex] = 1.56 mol  × (2 mol  / 1 mol ) = 3.12 mol
5. Determine the mass of water produced:
Mass of [tex]H_2O[/tex] = moles × molar mass = 3.12 mol × 18.02 g/mol ≈ 56.3 g

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If I gently heat the typical (unfaceted) elongate crystals they develop opposite charges on each end. The uncut crystals are often multicolored with rounded triangular terminations. A chemical analysis shows the crystals are a silicate mineral that contains boron (B). The crystals are:

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Based on the description provided, the crystals appear to be tourmaline. The opposite charges developed on each end are a result of the crystal's piezoelectric properties, which allow it to generate an electrical charge in response to mechanical stress. The multicolored appearance and triangular terminations are also characteristic of tourmaline.

Tourmaline is a complex borosilicate mineral with a wide range of chemical compositions. The boron content in tourmaline is responsible for its unique properties, including its piezoelectricity and pyroelectricity.

The color of tourmaline can vary widely depending on its chemical composition and can include shades of pink, green, blue, yellow, and black. It is commonly found in pegmatites and can be used in jewelry and as a source of boron for industrial applications.

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A.) The value of Ka1 and Ka2 for carbonic acid are 4.20×10-7 and 4.80×10-11 , respectively.

(Use H3O+ instead of H+.)

Write the equation for the reaction that goes with Ka1:

Write the equation for the reaction that goes with Ka2:

B.) Write the equations that represent the first and second ionization steps for telluric acid(H2TeO4) in water.

(Use H3O+ instead of H+.)

First ionization step:

Second ionization step:

C.) Write the equations that represent the second and third ionization steps for arsenic acid(H3AsO4) in water.

(Use H3O+ instead of H+.)

second ionization step:

third ionization step:

Answers

Ionization refers to the process in which an atom or molecule loses or gains electrons, resulting in the formation of ions.

A) The equation for the reaction that goes with Ka1 for carbonic acid is: [tex]H_2CO_3 + H_2O <--> HCO_3^- + H_3O^+[/tex]
The equation for the reaction that goes with Ka2 for carbonic acid is: [tex]HCO_3^- + H_2O <--> CO_3^{2-} + H_3O^+[/tex]

B) The equations that represent the first and second ionization steps for telluric acid ([tex]H_2TeO_4[/tex]) in water are:
First ionization step:
[tex]H2TeO_4 + H_2O <--> H_3TeO_4^+ + OH^-[/tex]
Second ionization step:
[tex]H_3TeO_4^+ + H_2O <--> H_2TeO_4^{2+} + H_3O^+[/tex]

C) The equations that represent the second and third ionization steps for arsenic acid ([tex]H_3AsO_4[/tex]) in water are:
Second ionization step:
[tex]H_2AsO_4^- + H_2O <--> HAsO_4^{2-} + H_3O^+[/tex]
Third ionization step:
[tex]HAsO_4^{2-} + H_2O <--> AsO_4^{3-} + H_3O^+[/tex]
In these reactions, water acts as an acid or a base, donating or accepting protons (H+ ions) to form [tex]H_3O^+[/tex] ions. The Ka values represent the acid dissociation constant, which measures the strength of an acid in solution. The higher the Ka value, the stronger the acid.

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52) If 3.41 g of nitrogen react with 2.79 g of hydrogen to produce ammonia, what is the limiting reactant and what mass of ammonia is produced

Answers

The limiting reactant is N2 and the mass of ammonia produced is 4.16 g.

The balanced chemical equation for the reaction of nitrogen and hydrogen to produce ammonia is:

N2 + 3H2 → 2NH3

According to the equation, one mole of nitrogen reacts with three moles of hydrogen to produce two moles of ammonia.

First, we need to determine which reactant is limiting. To do this, we can calculate the number of moles of each reactant:

moles of N2 = 3.41 g / 28.02 g/mol = 0.122 mol

moles of H2 = 2.79 g / 2.02 g/mol = 1.38 mol

The mole ratio of N2 to H2 in the balanced equation is 1:3.

Therefore, N2 is the limiting reactant because there are fewer moles of N2 than are required to react with all of the H2 present.

Next, we can use the mole ratio from the balanced equation to calculate the number of moles of ammonia produced:

moles of NH3 = 0.122 mol N2 x (2 mol NH3 / 1 mol N2) = 0.244 mol NH3

Finally, we can use the molar mass of ammonia to convert the number of moles to grams:

mass of NH3 = 0.244 mol NH3 x 17.03 g/mol = 4.16 g NH3

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g In the titration of 25.0 mL of 0.1 M CH3COOH with 0.1 M NaOH, how is the pH calculated after 8 mL of titrant is added

Answers

pH = 4.76 + log(0.0025/0) = 9.06 is the pH after 8ml of titrant is added. and at the equivalence point, there will be 0.0025 moles of NaOH added.

This can be found by multiplying the volume (in L) by the concentration: (25.0 mL / 1000 mL/L) x 0.1 mol/L = 0.0025 mol CH3COOH.

Next, you need to determine the number of moles of NaOH added at 8 mL. This can be found by multiplying the volume (in L) by the concentration: (8 mL / 1000 mL/L) x 0.1 mol/L = 0.0008 mol NaOH.
Since NaOH is a strong base and CH3COOH is a weak acid, the reaction will not go to completion.

However, the equivalence point occurs when moles of NaOH added equals moles of CH3COOH in the sample.

Therefore, at the equivalence point, there will be 0.0025 moles of NaOH added.

Using the Henderson-Hasselbalch equation, the pH can be calculated: pH = pKa + log([A-]/[HA]),

where pKa of CH3COOH is 4.76, [A-] is the concentration of the acetate ion (formed from CH3COOH) and [HA] is the concentration of CH3COOH remaining.

At the equivalence point, [A-] = 0.0025 mol and [HA] = 0 mol.

Therefore, pH = 4.76 + log(0.0025/0) = 9.06.

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Which of the following contains an atom (other than hydrogen) which lacks an octet of valence electrons? a) H30+ b) IF c) BH3 d) NH3

Answers

The correct answer is c) BH3. An atom achieves stability by having a full outermost shell of valence electrons, which typically means eight electrons. This is known as an octet.

However, some atoms can have fewer than eight valence electrons, which makes them unstable and more likely to bond with other atoms. In the case of BH3, boron only has three valence electrons, so it cannot form an octet by itself. Instead, it bonds with three hydrogen atoms to create a stable molecule. The other options listed all have atoms with a full octet of valence electrons, so they are stable on their own.
In BH3, the boron atom lacks a complete octet of valence electrons. Boron has 3 valence electrons, and when it forms 3 single bonds with hydrogen atoms in BH3, it has a total of 6 valence electrons instead of the preferred 8 (octet). This makes BH3 an electron-deficient molecule. In contrast, the other options (H3O+, IF, and NH3) have atoms with complete octets of valence electrons.

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To what volume should you dilute 25 mL of a 12.0 M H2SO4 solution to obtain a 0.170 M H2SO4 solution

Answers

1764.71mL will be obtained to make 0.170M [tex]H_2SO_4[/tex]
To dilute 25 mL of a 12.0 M [tex]H_2SO_4[/tex] solution to obtain a 0.170 M [tex]H_2SO_4[/tex] solution, you should use the dilution formula:

M1V1 = M2V2

Where M1 and V1 are the initial molarity and volume, and M2 and V2 are the final molarity and volume, respectively. In this case:

M1 = 12.0 M
V1 = 25 mL
M2 = 0.170 M

Plug in the values and solve for V2:

(12.0 M)(25 mL) = (0.170 M)(V2)

300 = 0.170V2

V2 = 300 / 0.170 ≈ 1764.71 mL

So, you should dilute the 25 mL of 12.0 M H2SO4 solution to approximately 1764.71 mL to obtain a 0.170 M [tex]H_2SO_4[/tex] solution.

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A Closed Container Has 0.5 Mol Of I2, 0.5 Mol Of H2, And 0.1 Mol Of HI, Where The Total Pressure Is 1.5 Bar. Compute The Number Of Mols Of Each

Answers

Therefore, the number of moles of each component in the container is:

n([tex]I_2[/tex]) = 0.75/RT

n(([tex]H_2[/tex]) = 0.75/RT

n(HI) = 0.15/RT

We can use the ideal gas Pressure law to solve for the number of moles of each component. The ideal gas law is:

PV = nRT

Since the container is closed, the volume is constant, and we can assume the temperature is constant as well. We can rearrange the ideal gas law to solve for n:

n = PV/RT

For [tex]I_2[/tex]:

n([tex]I_2[/tex])) = (P([tex]I_2[/tex]) * V)/RT

We know that P(([tex]H_2[/tex]) = X * P(total), where X is the mole fraction of ([tex]H_2[/tex]. We can calculate X as:

X([tex]I_2[/tex])) = n(([tex]H_2[/tex])/(n([tex]I_2[/tex])) + n(([tex]H_2[/tex]) + n(HI))

X([tex]I_2[/tex])) = 0.5/(0.5 + 0.5 + 0.1) = 0.5

Substituting this into the equation for n(([tex]H_2[/tex]), we get:

n(I2) = (0.5 * 1.5)/RT = 0.75/RT

For ([tex]H_2[/tex]:

n(([tex]H_2[/tex]) = (P(([tex]H_2[/tex]) * V)/RT

We know that P(([tex]H_2[/tex]) = X(([tex]H_2[/tex]) * P(total), where X([tex]H_2[/tex] is the mole fraction of ([tex]H_2[/tex]. We can calculate X(H2) as:

X(([tex]H_2[/tex]) = n(H2)/(n([tex]I_2[/tex])) + n(H2) + n(HI))

X(([tex]H_2[/tex]) = 0.5/(0.5 + 0.5 + 0.1) = 0.5

Substituting this into the equation for n(([tex]H_2[/tex]), we get:

n(H2) = (0.5 * 1.5)/RT = 0.75/RT

For HI:

n(HI) = (P(HI) * V)/RT

We know that P(HI) = X(HI) * P(total), where X(HI) is the mole fraction of HI. We can calculate X(HI) as:

X(HI) = n(HI)/(n(I2) + n(([tex]H_2[/tex]) + n(HI))

X(HI) = 0.1/(0.5 + 0.5 + 0.1) = 0.1

this into the equation for n(HI), we get:

n(HI) = (0.1 * 1.5)/RT = 0.15/RT

So, the number of moles of each component in the container is:

n([tex]I_2[/tex])) = 0.75/RT

n([tex]H_2[/tex]) = 0.75/RT

n(HI) = 0.15/RT

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These are the ______ group attached to the 5' carbon atom of the sugar portion of a nucleotide and the ______ group attached to the ______ carbon atom.

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These are the phosphate group attached to the 5' carbon atom of the sugar portion of a nucleotide and the hydroxyl group attached to the 3' carbon atom.

A nucleotide is the basic building block of nucleic acids, which are the genetic material of all living organisms. A nucleotide is composed of three parts: a nitrogenous base, a pentose sugar, and a phosphate group. The nitrogenous base can be either a purine (adenine, guanine) or a pyrimidine (cytosine, thymine, uracil) and is attached to the 1' carbon atom of the sugar. The sugar in DNA is deoxyribose, while in RNA it is ribose. The phosphate group is attached to the 5' carbon atom of the sugar, while the hydroxyl group is attached to the 3' carbon atom. The phosphate group is a negatively charged molecule that provides the backbone of the nucleic acid chain through phosphodiester bonds between adjacent nucleotides. The phosphate group in DNA and RNA provides the negatively charged backbone that helps to stabilize the structure of the molecule by repelling other negatively charged molecules. The hydroxyl group in RNA is involved in the formation of phosphodiester bonds between adjacent nucleotides, which are important for the stability and structure of RNA. In DNA, the absence of the 2' hydroxyl group in the deoxyribose sugar is one of the key features that differentiate it from RNA, and this absence of the hydroxyl group is important for the stability of the DNA double helix. Overall, the phosphate and hydroxyl groups play important roles in the structure and stability of nucleic acids, and their specific positions on the sugar molecule are critical for the proper function of these biomolecules.

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nickel is more reactive than hydrogen so it replaces hydrogen from hydrochloric acid when mixed together. write a balanced chemical equation for this

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The reaction between nickel and hydrochloric acid can be written as follows:

Ni + 2HCl → NiCl2 + H2

In this equation, the nickel (Ni) reacts with the hydrochloric acid (HCl) to form nickel chloride (NiCl2) and hydrogen gas (H2).

The reaction is a classic example of a single displacement reaction, where the more reactive metal (nickel) replaces the less reactive hydrogen in the acid.

The balanced chemical equation shows that for every mole of nickel that reacts, two moles of hydrochloric acid are required. The reaction produces one mole of hydrogen gas and one mole of nickel chloride.

The reaction between nickel and hydrochloric acid is exothermic, meaning that it releases heat. This makes it useful for certain industrial applications, such as in the production of nickel chloride for use in the production of stainless steel and other alloys.

It is important to note that this reaction can be dangerous, as the production of hydrogen gas can lead to the formation of explosive mixtures if not properly controlled.

Additionally, hydrochloric acid is a strong acid and can cause severe burns if it comes into contact with the skin or eyes.

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To neutralize 1 mol of sulfuric acid, 2 mol of sodium hydroxide are required. How many liters of 1 M NaOH are needed to exactly neutralize 1 L of 1 M H2SO4

Answers

2 liters of 1 M NaOH are needed to exactly neutralize 1 L of 1 M H2SO4.


We will use the concept of stoichiometry and molarity.

Given:
1 mol H₂SO₄ requires 2 mol NaOH to neutralize
Volume of H₂SO₄ solution = 1 L
Molarity of H₂SO₄ solution = 1 M
Molarity of NaOH solution = 1 M

Step 1: Determine moles of H₂SO₄ in 1 L solution
moles = Molarity × Volume
moles H₂SO₄ = 1 M × 1 L = 1 mol

Step 2: Determine moles of NaOH needed to neutralize 1 mol H₂SO₄
moles NaOH = 2 × moles H₂SO₄
moles NaOH = 2 × 1 mol = 2 mol

Step 3: Determine the volume of 1 M NaOH needed to provide 2 mol NaOH
Volume = moles / Molarity
Volume NaOH = 2 mol / 1 M = 2 L

To exactly neutralize 1 L of 1 M H₂SO₄, you will need 2 L of 1 M NaOH.

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In the Bohr model of the atom, ________both electrons travel in circular paths called orbitals and electron energies are quantized

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In the Bohr model of the atom, electrons travel in circular paths called orbitals, and electron energies are quantized.

The Bohr model of the atom was proposed by Niels Bohr in 1913. According to this model, electrons move in circular paths, also known as orbitals, around the nucleus of an atom. These orbitals have discrete energy levels, and the electrons can only occupy these levels, which are quantized.

The energy of an electron is proportional to the distance between the electron and the nucleus, and electrons can move between energy levels by absorbing or emitting energy in the form of photons. The Bohr model was significant in helping to explain the spectra of atoms and provided a basis for further understanding of atomic structure.

However, it has since been replaced by more complex models, such as the quantum mechanical model, which provide a more accurate description of atomic behavior.

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What are the three things that affect an enzyme's ability to change the reaction rate of a chemical reaction

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Enzyme's ability to change the reaction rate of a chemical reaction is affected by temperature, pH and substrate concentration. These factors can alter the enzyme's structure and activity, affecting its ability to catalyze reactions.

The three things that affect an enzyme's ability to change the reaction rate of a chemical reaction are:

1. Substrate concentration: As the substrate concentration increases, the rate of reaction increases until the active sites of all the enzymes are occupied. This is known as saturation.

2. Temperature: Enzymes work best at a specific temperature range. If the temperature is too low, the rate of reaction will be slow. If the temperature is too high, the enzyme can denature and lose its function.

3. pH: Enzymes also work best at a specific pH range. If the pH is too low or too high, the enzyme can denature and lose its function. Each enzyme has an optimal pH range in which it can work efficiently.

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what is the balanced chemical equation for the reaction of acetic acid with octanol to form octyl acetate.

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The reaction between acetic acid and octanol to form octyl acetate is an esterification reaction, which involves the reaction between a carboxylic acid and an alcohol in the presence of an acid catalyst. The balanced chemical equation for this reaction is:

CH₃COOH + C₈H₁₇OH -> CH₃COOC₈H₁₇ + H₂O

In this reaction, acetic acid (CH₃COOH) reacts with octanol (C₈H₁₇OH ) to produce octyl acetate (CH₃COOC₈H₁₇) and water (H₂O). The reaction requires an acid catalyst such as sulfuric acid or hydrochloric acid, which acts to facilitate the formation of the ester bond between the acid and alcohol molecules. The reaction is reversible, and the yield of the product can be increased by using excess amounts of either reactant or by removing the water formed during the reaction using a suitable drying agent. Octyl acetate is a commonly used flavor and fragrance compound in the food and cosmetic industries.

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Calculate the volume in milliliters of a 12./molL silver perchlorate solution that contains 175.mmol of silver perchlorate AgClO4. Be sure your answer has the correct number of significant digits.

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The volume of a 12.0 mol/L silver perchlorate (AgClO₄) solution contains 175. mmol of AgClO₄ is 14.6 mL.

To calculate the volume of the solution, we can use the formula:

Volume = Amount of substance / Concentration

Given:

Amount of substance of AgClO₄ = 175. mmol

Concentration of AgClO₄ solution = 12.0 mol/L

We need to convert the amount of substance from millimoles (mmol) to moles (mol) by dividing by 1000:

Amount of substance of AgClO₄ = 175. mmol / 1000 = 0.175 mol

Plugging in the values into the formula:

Volume = 0.175 mol / 12.0 mol/L = 0.0146 L

Since the concentration is given with three significant digits, the volume should also be reported with the same number of significant digits. Converting liters to milliliters:

Volume = 0.0146 L x 1000 mL/L = 14.6 mL

So, the volume of the 12.0 mol/L AgClO₄ solution contains 175. mmol of AgClO₄ is 14.6 mL, reported with three significant digits to match the given concentration.

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I need help with this I’m not sure on how to do it

Answers

If 0.68 moles of ammonia reacts, 11.56g of nitrogen gas will be produced.1.06 moles of HCl is required to react with 34.5 grams of zinc.

How to find moles and mass using stoichiometry?

Stoichiometry is the study and calculation of quantitative (measurable) relationships of the reactants and products in chemical reactions (chemical equations).

QUESTION 18;

4 moles of ammonia reacts to produce 2 moles of nitrogen gas

0.68 moles of ammonia will produce 0.34 moles of nitrogen gas.

Mass of nitrogen gas = 0.34 moles × 34g/mol = 11.56g

QUESTION 19;

1 mole of zinc reacts with 2 moles of hydrochloric acid

34.5 grams of Zn is equivalent to 34.5/65.39 = 0.53 moles

0.53 moles will react with 1.06 moles of HCl.

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what is the ph of 0.41 m acetic acid to 1.00 l of which 1.17 g of sodium acetate, , has been added? ( for acetic acid is .) ph =

Answers

To calculate the pH of a solution containing acetic acid and sodium acetate, we need to use the Henderson-Hasselbalch equation pH = pKa + log([A-]/[HA])

where pKa is the dissociation constant of acetic acid, [A-] is the concentration of the acetate ion, and [HA] is the concentration of undissociated acetic acid. The pKa of acetic acid is 4.76.First, we need to calculate the concentrations of [A-] and [HA]. We can use the dissociation reaction of acetic acid to do this CH3COOH + Na+ → CH3COO- + NaH From the balanced equation, we know that 1 mole of sodium acetate reacts with 1 mole of acetic acid to produce 1 mole of acetate ion and 1 mole of undissociated acetic acid. Therefore, the concentration of [A-] is equal to the molarity of the sodium acetate solution, which is [A-] = 1.17 g / (82.03 g/mol x 1 L) = 0.0143 M The concentration of [HA] can be calculated by subtracting [A-] from the initial molarity of the acetic acid solution, which is [HA] = 0.41 M - 0.0143 M = 0.3957 M Now we can plug these values into the Henderson-Hasselbalch equation,pH = 4.76 + log(0.0143/0.3957) = 4.76 - 1.30 = 3.46 Therefore, the pH of the solution is 3.46.

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