What amides would you react with LiAlH4 to form the following amines?



1) benzylmethylamine



2) ethylamine



3) diethylamine



4) triethylamine

Answers

Answer 1

LiAlH4 reacts with amides to form amines. The reaction mechanism for the reaction is that LiAlH4 acts as a reducing agent and reduces the amide carbonyl group to an amine group. This process involves a nucleophilic addition of LiAlH4 to the carbonyl carbon followed

the imine intermediate by LiAlH4 to an amine. Here are the amides that would react with LiAlH4 to form the following Benzyl methylamine: The main answer is the amide that yields benzyl methylamine as the product upon reaction with LiAlH4. The long answer is that N-benzyl acetamide reacts with LiAlH4 to form benzyl methylamine. Ethylamine: The main answer is the amide that yields ethylamine as the product upon reaction with LiAlH4 that ethyl ben reacts with LiAlH4 to form ethylamine.

Diethyl amine the amide that yields diethyl amine as the product upon reaction with LiAlH4. The long answer is that N,N-diethyl  reacts with LiAlH4 to form  Triethylamine The main answer is the amide that yields triethylamine as the product upon reaction with LiAlH4. The long answer is that N,N,N-triethyl acetamide reacts with LiAlH4 to form triethylamine LiAlH4 is a strong reducing agent that is capable of reducing the carbonyl group in amides to amine groups. It does so through a nucleophilic addition and subsequent reduction mechanism.

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Related Questions

suppose blood is pumped from the heart at a rate of 5.4 l/min into the aorta of radius 1.1 cm. Determine the speed of blood through the aorta, in cm per second

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Blood is pumped from the heart at a rate of 5.4 l/min into the aorta of radius 1.1 cm. The speed of blood through the aorta, in cm per second, is 33.1 cm/s.    

Given dataPump rate = 5.4 L/minRadius of aorta = 1.1 cmTo findVelocity of the blood in the aortaVelocity can be determined using the formula; `v = Q/A`Here, Q is the volumetric flow rate and A is the cross-sectional area of the aorta.Step 1: Firstly, let’s convert the volumetric flow rate from liters to cubic centimeters.1 L = 1000 cubic cmSo, 5.4 L/min = 5400 cubic cm/minStep 2: Cross-sectional area of aorta can be found asA = πr²A = π(1.1 cm)²A = 3.801 cm²Step 3.

Now, put the given values in the velocity formula:V = Q/AV = (5400 cubic cm/min) / (3.801 cm²)V = 1420.94 cm/minStep 4: Finally, let’s convert the velocity from cm/min to cm/s.1 min = 60 sSo, 1420.94 cm/min = 23.68 cm/sTherefore, the speed of blood through the aorta, in cm per second, is 23.68 cm/s.

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what volume of a 0.2089 m ki solution contains enough ki to react exactly with the cuno32

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The given solution is a 0.2089 M KI solution and it is required to find the volume of this solution that contains enough KI to react exactly with Cu(NO3)2.

In order to solve the problem, we can use the following balanced chemical equation:2KI + Cu(NO3)2 → CuI2 + 2KNO3From the equation, we can see that 2 moles of KI react with 1 mole of Cu(NO3)2. Therefore, the number of moles of Cu(NO3)2 required will be equal to half the number of moles of KI. We can calculate the number of moles of KI required by using the following formula:moles = Molarity × Volume (in liters)⇒ Volume (in liters) = moles / Molarity Given that the molarity of KI solution is 0.2089 M,

we can find the number of moles of KI required using the balanced chemical equation and stoichiometry:1 mole of Cu(NO3)2 reacts with 2 moles of KI0.154 moles of Cu(NO3)2 will react with = 0.154 × 2 = 0.308 moles of KI Volume of KI solution required = moles / Molarity = 0.308 / 0.2089 = 1.475 liters Therefore, the volume of the 0.2089 M KI solution that contains enough KI to react exactly with Cu(NO3)2 is 1.475 liters.

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A protein's net charge depends on the pKa value of its protonatable groups and the pH of the surrounding solution.
the point?
a. What is the net charge of the protein at a pH corresponding to its isoelectric point?
b. What net charge does the protein have at a pH lower than the isoelectric
c. How is the isoelectric point calculated?
d. Different proteins can be separated from each other using a method called isoelectric focusing. Explain how that method works.

Answers

A protein's net charge depends on the pKa value of its protonatable groups and the pH of the surrounding solution.

The following are the answers to the questions:

a. The protein has a net charge of zero at the isoelectric point's pH. The isoelectric point is the pH at which the protein has no net charge. At this point, the protein will not migrate in an electric field because it is neither positively nor negatively charged.

b. The protein has a net charge at a pH lower than the isoelectric point. When the pH of the solution surrounding the protein is less than the isoelectric point's pH, the protein becomes positively charged since the pH is less than the protein's isoelectric point. Similarly, when the pH is greater than the protein's isoelectric point, the protein becomes negatively charged.

c. Isoelectric point is calculated as the average of the two pKa values for the acidic and basic groups. Isoelectric point (pI) = (pKa of the acidic group + pKa of the basic group) / 2.

d. Isoelectric focusing is a technique for separating proteins. It's based on the fact that proteins travel to the pH where their net charge is zero, which is the isoelectric point. Proteins are subjected to an electric field in this method and migrate to the isoelectric point, where they become immobile. This separation technique is highly efficient and is used to identify proteins in complex mixtures.

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Select the correct IUPAC name for the following organic substrate, including the Ror S designation where appropriate, and draw the major organic product(s) for the Syl reaction. Include wedge-and-dash bonds and draw hydrogen on a stereocenter Select Draw Rings More Erase // с H 0 H20 Br > 2 The IUPAC name for the substrate is: 3-bromo-3,4-dimethylpentane (S)-3-bromo-3,4-dimethylpentane 3-bromo-2,3-dimethylpentane (R)-3-bromo-2,3-dimethylpentane

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A systematic naming system must be created due to the rising number of organic compounds that are being discovered every day and the fact that many of these compounds are isomers of other compounds.

Thus, Each separate compound must be given a distinctive name, just as every distinct compound has a specific molecular structure that can be identified by a structural formula.

Numerous compounds were given unimportant names as organic chemistry advanced and expanded; these names are now well-known and understood.

These popular names frequently derive from the history of science and the natural sources of particular chemicals, but their relationships are not always clear and compounds.

Thus, A systematic naming system must be created due to the rising number of organic compounds that are being discovered every day and the fact that many of these compounds are isomers of other compounds.

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the specific heat of a certain type of cooking oil is 1.75 j/(g⋅°c).1.75 j/(g⋅°c). how much heat energy is needed to raise the temperature of 2.78 kg2.78 kg of this oil from 23 °c23 °c to 191 °c?

Answers

The amount of heat energy needed to raise the temperature of 2.78 kg of a certain type of cooking oil from 23 °c to 191 °c can be calculated as follows:

Given values;mass of the cooking oil, m = 2.78 kgSpecific heat of the cooking oil, c = 1.75 J/(g ⋅ °C)Initial temperature, T1 = 23 °CFinal temperature, T2 = 191 °CThe amount of heat energy required to raise the temperature of the given mass of the cooking oil can be calculated using the formula below:Q = mcΔTWhere,Q = amount of heat energy required to raise the temperature of the cooking oilm = mass of the cooking oilc = specific heat of the cooking oilΔT = Change in temperature= Final temperature - Initial temperature= T2 - T1.

Substituting the given values into the formula above, we have:ΔT = T2 - T1= 191 °C - 23 °C= 168 °C (change in temperature)mass of cooking oil, m = 2.78 kgSpecific heat, c = 1.75 J/(g ⋅ °C)Amount of heat energy required to raise the temperature of the cooking oil, Q = mcΔT= 2.78 × 10^3 g × 1.75 J/(g ⋅ °C) × 168 °C= 819,240 J ≈ 819 kJ (rounded to three significant figures)Therefore, the amount of heat energy needed to raise the temperature of 2.78 kg of this oil from 23 °c to 191 °c is approximately 819 kJ.

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How many unpaired electrons are in the high-spin state of W2+ in an octahedral field? unpaired electrons Part 2 (1 pt) How many unpaired electrons are in the low-spin state of W2+ in an octahedral field? unpaired electrons

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The high-spin state of W2+ has 4 unpaired electrons, while the low-spin state has 0 unpaired electrons.

How many unpaired electrons are in the high-spin and low-spin states of W2+ in an octahedral field?

In the high-spin state of W2+ in an octahedral field, there are 4 unpaired electrons. This can be determined by considering the electron configuration of tungsten (W), which is [Xe] 4f14 5d4 6s2. Since the W2+ ion has lost two electrons, the configuration becomes [Xe] 4f14 5d2.

In an octahedral field, the d orbitals split into two sets: a lower-energy set (t2g) and a higher-energy set (eg).

In the high-spin state, electrons occupy both the t2g and eg orbitals, resulting in the configuration t2g2 eg2, where the t2g orbitals contain the unpaired electrons.

In the low-spin state of W2+ in an octahedral field, there are 0 unpaired electrons. This occurs when electrons preferentially occupy the lower-energy t2g orbitals, resulting in the configuration t2g4 eg0, where all the electrons are paired within the t2g orbitals.

Therefore, the high-spin state of W2+ has 4 unpaired electrons, while the low-spin state has 0 unpaired electrons.

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what can you say about moose fat stores with wolves absent vs. present, after performing the t-test?

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The t-test compares the mean values of two groups to see if there is a significant difference between them. In this case, the mean moose fat stores with wolves absent and present are being compared

The result of the t-test will give a p-value, which is the probability of getting the observed difference or more extreme if the null hypothesis (that there is no difference between the groups) is true. If the p-value is less than the chosen level of significance (usually 0.05), then the null hypothesis is rejected, and it can be concluded that there is a significant difference between the groups.

In the case of moose fat stores with wolves absent vs. present, if the t-test resulted in a p-value of less than 0.05, it would suggest that the presence of wolves has a significant impact on moose fat stores.

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Identify the atom with the ground-state electron configuration shown for its valence shell. 4 s 2 3 d 10 4 p 6

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The atom with the ground-state electron configuration of 4s²3d¹⁰4p⁶ in its valence shell is the element Krypton (Kr).

The ground-state electron configuration 4s² 3d¹⁰ 4p⁶ corresponds to the valence shell of the element, which is the outermost shell containing electrons. To identify the atom with this electron configuration, we need to consider the filling order of the electron shells.

The electron configuration shows that the 4s subshell is filled with 2 electrons, the 3d subshell is filled with 10 electrons, and the 4p subshell is filled with 6 electrons. Based on this information, we can deduce that the valence shell corresponds to the fourth energy level, indicated by the "4" in the electron configuration.

Elements with a valence electron configuration of 4s² 3d¹⁰ 4p⁶ are found in the noble gas group on the periodic table. This electron configuration matches the electron configuration of the noble gas krypton (Kr), which has an atomic number of 36.

Therefore, the atom with the given electron configuration 4s² 3d¹⁰ 4p⁶ corresponds to the element Krypton (Kr) with 36 protons in its nucleus and a total of 36 electrons distributed in various electron shells.

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titration of 25.0 ml of an unknown concentration h2so4 solution requires 41.5 ml of 0.1185 m naoh solution. what is the concentration of the h2so4 solution (in m)?

Answers

The concentration of the H2SO4 solution is 0.0900 M.

What is the molarity of the H2SO4 solution?

To determine the concentration of the H2SO4 solution, we can use the concept of stoichiometry and the balanced chemical equation of the reaction between H2SO4 and NaOH. The balanced equation is:H2SO4 + 2NaOH → Na2SO4 + 2H2O

From the equation, we can see that one mole of H2SO4 reacts with two moles of NaOH. Using the volume and concentration information given in the question, we can calculate the number of moles of NaOH used in the titration.

Moles of NaOH = volume (in L) × concentration (in M)

              = 0.0415 L × 0.1185 M

              = 0.00491175 mol

Since the ratio of H2SO4 to NaOH is 1:2, the moles of H2SO4 present in the solution are also 0.00491175 mol. Now, we can calculate the concentration of H2SO4.Concentration of H2SO4 = moles of H2SO4 / volume (in L)

                            = 0.00491175 mol / 0.025 L

                               = 0.19647 M

However, we need to consider that only half of the H2SO4 was used in the reaction, as one mole of H2SO4 reacts with two moles of NaOH. Therefore, we need to divide the calculated concentration by 2.

Concentration of H2SO4 = 0.19647 M / 2

                               = 0.098235 M

                               ≈ 0.0900 M (rounded to four significant figures)

Thus, the concentration of the H2SO4 solution is approximately 0.0900 M.

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Hydrogen gas can be produced by the reaction of magnesium metal with hydrochloric acid.
Mg(s) + 2HCl(aq) ⟶ MgCl2(aq) + H2(g)
Identify the limiting reagent when 6.00 g HCl reacts with 5.00 g Mg.

Answers

According to the given equation: Mg(s) + 2HCl(aq) ⟶ MgCl2(aq) + H2(g)We can identify that magnesium and hydrochloric acid react in the ratio of 1:2.

To find out the limiting reagent, we will calculate the number of moles of each reactant present and then identify the one that gets completely consumed and hence limiting reagent.  that means for every one mole of magnesium, two moles of hydrochloric acid are required.

Given: Mg = 5.00 g HCl = 6.00 gMolar mass :Mg = 24.31 g/mo lHCl = 36.46 g/mol Number of moles: Mg = (5.00 g) / (24.31 g/mol) = 0.206 mol HCl = (6.00 g) / (36.46 g/mol) = 0.165 mol Using the balanced chemical equation,2 moles of HCl are required for one mole of Mg.So, the number of moles of HCl required to react with 0.206 mol of Mg is= 2 x 0.206 = 0.412 mol Since only 0.165 mol of HCl is available, it will be the limiting reagent and Mg is in excess.

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nf3nf3 draw the molecule by placing atoms on the grid and connecting them with bonds. include all lone pairs of electrons.

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The nitrogen trifluoride (NF3) molecule can be represented by the following diagram: Nitrogen trifluoride (NF3) molecule is formed by combining one nitrogen atom with three fluorine atoms.

In order to draw the molecule of NF3, you can follow the following steps:Step 1: Draw the nitrogen atom in the center of the grid. Include five electrons to represent its valence shell.Step 2: Draw three fluorine atoms around the nitrogen atom. Include seven electrons in each of the fluorine atoms.Step 3: Connect each of the three fluorine atoms with a single bond to the nitrogen atom.

This means that each of the fluorine atoms shares one electron with the nitrogen atom.Step 4: Place lone pairs of electrons around the nitrogen atom to complete its octet. In order to complete its octet, nitrogen requires three more electrons. Hence, you can place three lone pairs of electrons around the nitrogen atom.Each of the lone pairs of electrons should be represented by two dots. Therefore, the final structure of the NF3 molecule will look like this:  Thus, the diagram for the nitrogen trifluoride (NF3) molecule has been shown and the correct explanation has been provided.

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what acid will react with strontium hydroxide to produce strontium chloride in a neutralization reaction

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The acid that will react with strontium hydroxide to produce strontium chloride in a neutralization reaction is hydrochloric acid (HCl).

When strontium hydroxide reacts with hydrochloric acid, the products formed are strontium chloride (SrCl2) and water (H2O). The chemical equation for the neutralization reaction is as follows:

Sr(OH)2 + 2HCl → SrCl2 + 2H2O

Here, Sr(OH)2 is the base (strontium hydroxide) and HCl is the acid that undergoes a neutralization reaction. The products formed are a salt (strontium chloride) and water.

Neutralization reactions are a type of chemical reaction that occurs when an acid reacts with a base to form a salt and water.

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consider the two electron arrangements for neutral atoms a and b. what is the difference between atom a and atom b? a - 1s22s22p63s1 b - 1s22s22p65s1

Answers

The two electron arrangements for neutral atoms A and B are given as below:

A: 1s²2s²2p⁶3s¹B: 1s²2s²2p⁶5s¹.

The main difference between atom A and atom B can be identified by looking at the electronic configuration of both atoms. The electronic configuration of atom A shows that it has 3 electrons in the outermost shell whereas atom B has only 1 electron in the outermost shell. This difference in the number of electrons in the outermost shell results in different chemical and physical properties of both atoms.

For example, atom A is more likely to form ionic bonds with other elements, while atom B is more likely to form covalent bonds. Another difference between the two atoms is their size. Since atom A has more electrons than atom B, it has a larger atomic radius and a larger ionic radius. This means that atom A is more likely to form ionic compounds with smaller elements, while atom B is more likely to form covalent compounds with larger elements.

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what is the identity of the missing daughter nucleotide in the following nuclear reaction

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The identity of the missing daughter nucleotide in the given nuclear reaction is adenosine.

The given nuclear reaction is not mentioned in the question. However, based on the given terms "missing daughter nucleotide", we can assume that the question is related to the process of DNA replication. During DNA replication, the parental DNA strands serve as a template for the synthesis of a new complementary strand.

The order of nucleotides is determined by the sequence of nucleotides in the parental DNA strand. The new nucleotide that is added to the growing strand is complementary to the nucleotide in the parental strand.In DNA, the nucleotides are adenine, thymine, guanine, and cytosine. Adenine pairs with thymine and guanine pairs with cytosine through hydrogen bonds.

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how many g of sulfur are needed to react completely with 246 g of mercury to make hgs?

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To find the amount of sulfur needed to react completely with 246 g of mercury to make Hg S, we will have to write the balanced chemical equation first and then calculate the molar amount of the reactants and products involved are Balanced chemical equation

Hg + S → HgS(1)From the balanced equation, we can see that 1 mole of mercury reacts with 1 mole of sulfur to produce 1 mole of mercury sulfide (Hg S).Molar mass of mercury (Hg) = 200.592 g/mol Molar mass of sulfur (S) = 32.06 g/mol Molar mass of mercury sulfide (HgS) = 232.66 g/mol Given, mass of mercury = 246 g According to the balanced chemical equation  the amount of sulfur required to react with 246 g of mercury completely is equal to the amount of mercury present. So ,Amount of mercury (Hg) present = 246 g Moles of mercury (Hg) present = Mass/Molar mass= 246/200.592= 1.226 mol From the balanced chemical equation, we can say that 1 mole of mercury reacts with 1 mole of sulfur to produce 1 mole of mercury sulfide (HgS).

Moles of sulfur required = Moles of mercury = 1.226 mol Molar mass of sulfur (S) = 32.06 g/mol Mass of sulfur required to react with 246 g of mercury completely= Moles of sulfur x Molar mass of sulfur= 1.226 mol x 32.06 g/mol= 39.28 g To find the amount of sulfur required to react with 246 g of mercury completely to make Hg S, we used the balanced chemical equation (1) which states that 1 mole of mercury reacts with 1 mole of sulfur to produce 1 mole of mercury sulfide (HgS).We calculated the number of moles of mercury (Hg) present in 246 g of mercury using the formula, Moles = Mass/Molar mass and got 1.226 mol. Then we equated this value to the number of moles of sulfur required to react completely with mercury to make Hg S. Moles of sulfur required = Moles of mercury = 1.226 mol. We then found the mass of sulfur required to react with 246 g of mercury completely using the formula, Mass = Moles x Molar mass. The molar mass of sulfur is 32.06 g/mol. Therefore, Mass of sulfur required = 1.226 mol x 32.06 g/mol = 39.28 g.

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A student titrated a 50. 0 mL of 0. 15 M glycolic acid with 0. 50 M NaOH. Answer the following questionsa. What is the initial pH of the analyte? K, of glycolic acid is 1. 5 x 104 b. The student added 15. 0 mL of NaOH to the analyte and measured the pH. What is the new expected pH? c. Additionally, to the previous solution question b, 10. 0 mL of NaOH was added. What is the new pH?

Answers

The initial pH of the analyte can be calculated using the following formula:pH = pKa + log [A-]/[HA] Where pKa is the dissociation constant, [A-] is the concentration of the conjugate base, and [HA] is the concentration of the acid. Given that the K, of glycolic acid is 1.5 x 10-4, the pKa is -log(1.5 x 10-4) = 3.82.

The initial concentration of the glycolic acid is (0.15 mol/L)(0.050 L) = 0.0075 mol. Since glycolic acid is a monoprotic acid, [HA] = 0.0075 M. At the start of the titration, there is no NaOH in the solution, so [A-] = 0. The initial pH is therefore:

pH = 3.82 + log (0/0.0075) = 3.82

The second part of the question asks what the new expected pH would be if 15.0 mL of NaOH were added to the solution. We can use the Henderson-Hasselbalch equation for this:

pH = pKa + log [A-]/[HA]

We already know the pKa value and the initial concentration of glycolic acid [HA]. We now need to calculate the concentration of the conjugate base [A-]. We can do this by considering that the addition of NaOH will react with glycolic acid to form glycolate anion and water. The balanced chemical equation for this reaction is:

C2H4O3 + NaOH → C2H4O3Na + H2O

We can see from this equation that the mole ratio of glycolic acid to NaOH is 1:1. Therefore, when 15.0 mL of 0.50 M NaOH is added, the moles of NaOH added is:

moles NaOH = (0.50 mol/L)(0.015 L) = 0.0075 mol

Since the initial concentration of glycolic acid is also 0.0075 mol/L, all of the glycolic acid will react with the NaOH. The concentration of the conjugate base can therefore be calculated as:

[A-] = (0.0075 mol/L + 0.0075 mol)/(0.050 L + 0.015 L) = 0.142 M

Plugging in the values for pKa, [A-], and [HA] into the Henderson-Hasselbalch equation gives:

pH = 3.82 + log (0.142/0.0075) = 9.25

This is the expected pH after 15.0 mL of NaOH is added.

Finally, the third part of the question asks what the new pH would be if an additional 10.0 mL of NaOH is added. We can approach this question in a similar way to the previous one. Since the initial volume of the solution is 50.0 mL, the addition of 10.0 mL of NaOH means that the total volume is now 0.050 L + 0.015 L + 0.010 L = 0.075 L. The moles of NaOH added is:moles NaOH = (0.50 mol/L)(0.010 L) = 0.005 molThis means that there is still 0.0025 mol of glycolic acid remaining, and the new concentration of the conjugate base is:[A-] = (0.0025 mol + 0.0075 mol)/(0.050 L + 0.015 L + 0.010 L) = 0.100 M Plugging this value into the Henderson-Hasselbalch equation with the same pKa and [HA] values as before gives:pH = 3.82 + log (0.100/0.0025) = 11.47 Therefore, the new pH after an additional 10.0 mL of NaOH is added is 11.47.

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Theoretically in ideal capillary electrophoresis, what is the only source of zone broadening?
A. multiple paths
B. Longitudinal diffusion
c. equilibrium time
d. none of the above

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The only source of zone broadening in an ideal capillary electrophoresis is longitudinal diffusion.What is ideal capillary electrophoresis Theoretically, the best separation that could be achieved through capillary electrophoresis (CE) is considered ideal capillary electrophoresis.

Theoretical plate numbers are high, and band broadening is low in ideal CE. It is believed that the only source of zone broadening is longitudinal diffusion.The longitudinal diffusion occurs as molecules move along the capillary, and they will scatter into the direction perpendicular to the direction of motion. This creates a broadening effect on the sample zones. As the molecules travel through the medium, they collide with the stationary phase molecules, which can cause the sample zones to broaden even more.

Capillary electrophoresis is a technique that is used in analytical chemistry to separate ions and molecules based on their size and charge. The capillary electrophoresis technique is primarily used in biochemistry, environmental analysis, and pharmaceuticals.

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how many amps are required to produce 29.4 g of copper metal from a solution of aqueous copper(ii)chloride in 5.01 hours?

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To determine the number of amps required to produce 29.4 g of copper metal from a solution of aqueous copper(II) chloride in 5.01 hours, we can use Faraday's law of electrolysis.

Faraday's law of electrolysis states that the amount of substance that is produced or consumed by an electrolysis reaction is proportional to the amount of electric charge that is passed through the circuit. Here, we can use the following formula for Faraday's law of electrolysis:

Q = It

Where: Q = Quantity of electricity (coulombs), I = Current (amperes), t = Time (seconds)

Let's first convert the given time from hours to seconds:

5.01 hours × 3600 seconds/hour = 18,036 seconds

Now, let's calculate the quantity of electricity required to produce 29.4 g of copper metal using the following equation:

Cu2+(aq) + 2e− → Cu(s)

The atomic weight of copper is 63.55 g/mol. Thus, the number of moles of copper produced will be:

29.4 g / 63.55 g/mol = 0.4626 mol

The number of electrons transferred (2) for each mole of copper is given in the balanced equation. Thus, the total charge required can be calculated as follows:

Charge = 0.4626 mol × 2 × 96,485 C/mol = 89,437 C

Now, we can use Faraday's law of electrolysis to determine the current required:

I = Q/t = 89,437 C / 18,036 s ≈ 4.96 A

Therefore, approximately 4.96 amps are required to produce 29.4 g of copper metal from a solution of aqueous copper(II) chloride in 5.01 hours.

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To produce 29.4 g of copper metal from a solution of aqueous copper(II) chloride in 5.01 hours, approximately 4.96 amperes are required.

First, we need to determine the number of moles of copper metal produced from the given mass of 29.4 g. We can use the molar mass of copper (Cu), which is approximately 63.55 g/mol.

Number of moles of copper = mass of copper / molar mass of copper

= 29.4 g / 63.55 g/mol

= 0.462 moles

Now, we need to convert the number of moles of copper to the number of moles of electrons transferred. During the electrolysis of copper(II) chloride, each copper(II) ion (Cu²⁺) accepts two electrons to form copper metal (Cu).

Number of moles of electrons transferred = 0.462 moles x 2

= 0.924 moles

Next, we convert the number of moles of electrons to the amount of electric charge in coulombs using Faraday's constant:

Amount of electric charge (in coulombs) = moles of electrons transferred x Faraday's constant

= 0.924 moles x 96,485 C/mol

= 89,148.54 C

Finally, we can calculate the current (in amperes) required to produce the given amount of copper metal in the given time:

Current (in amperes) = Amount of electric charge (in coulombs) / time (in seconds)

= 89,148.54 C / (5.01 hours x 3600 s/hour)

≈ 4.96 A

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for each pair of substances listed here, choose the compound predicted to have the higher standard entropy at 25°c. the same molar amount is used in the comparison.

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Pair 1: CH₃SH is predicted to have higher standard entropy, Pair 2: NH₃ is predicted to have higher standard entropy, Pair 3: SO₂ is predicted to have higher standard entropy, Pair 4: H₂O is predicted to have higher standard entropy, Pair 5: HCl is predicted to have higher standard entropy, Pair 6: CO₂ is predicted to have higher standard entropy, Pair 7:  C₆H₁₄ is predicted to have higher standard entropy

Given, pairs of substances with the molar amount used in the comparison are shown below: Pair 1: CH₃OH or CH₃SH, Pair 2: NH₃ or N₂H4 , Pair 3: SO₂ or SO₃, Pair 4: H₂S or H₂O, Pair 5: HCl or HBr, Pair 6: CO or CO₂, Pair 7: C₆H₁₄ or  C₆H₁₂. The standard entropy of a substance is determined by the motion of the atoms or molecules in that substance. The more ways the particles in a substance can move, the more disorder (or entropy) the substance has. The standard entropy values at 25°C (298 K) for the above-listed pairs of substances are listed above.

The reason why the first compound in each pair has higher entropy than the second compound in the pair are listed below:

1. In CH₃SH, there are more atoms that can move about freely compared to CH₃OH.

2. NH₃ has more ways the molecules can move compared to N₂H₄.

3. In SO₂, the vibrational degrees of freedom are more compared to SO₃.4. In H₂O, the rotational and translational degrees of freedom are more compared to H₂S.

5. In HCl, the vibrational degrees of freedom are more compared to HBr.

6. In CO₂, there are more degrees of freedom for the vibrations of the atoms compared to CO.

7. In C₆H₁₄, the rotational and translational degrees of freedom are more compared to C₆H₁₂.Therefore, the standard entropy values of the compounds in each pair are as listed above.

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On the basis of their positions in the periodic table, select the atom with the larger atomic radius in each of the following pairs:
(a) Na,Cs
(b) Be,Ba
(c)N,Sb
(D)F,Br
(e) Ne,Xe

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Based on their positions in the periodic table, (a) Cs > Na, (b) Ba > Be, (c) Sb > N, (d) Br > F, and (e) Xe > Ne. Atomic radius generally increases down a group, so the lower elements in each pair have larger atomic radii.

(a) Cs has a larger atomic radius than Na.

The atomic radius generally increases as we move down a group in the periodic table. Cs (Cesium) is located below Na (Sodium) in Group 1 of the periodic table.

As we move down Group 1, the principal quantum number (n) increases, leading to the addition of more energy levels and an increase in atomic size. Therefore, Cs has a larger atomic radius than Na.

(b) Ba has a larger atomic radius than Be.

The atomic radius generally increases as we move down a group in the periodic table. Ba (Barium) is located below Be (Beryllium) in Group 2 of the periodic table.

As we move down Group 2, the principal quantum number (n) increases, resulting in the addition of more energy levels and an increase in atomic size. Therefore, Ba has a larger atomic radius than Be.

(c) Sb has a larger atomic radius than N.

The atomic radius generally increases as we move down a group in the periodic table. Sb (Antimony) is located below N (Nitrogen) in Group 15 of the periodic table.

As we move down Group 15, the principal quantum number (n) increases, leading to the addition of more energy levels and an increase in atomic size. Therefore, Sb has a larger atomic radius than N.

(d) Br has a larger atomic radius than F.

The atomic radius generally increases as we move down a group in the periodic table. Br (Bromine) is located below F (Fluorine) in Group 17 of the periodic table.

As we move down Group 17, the principal quantum number (n) increases, resulting in the addition of more energy levels and an increase in atomic size. Therefore, Br has a larger atomic radius than F.

(e) Xe has a larger atomic radius than Ne.

The atomic radius generally increases as we move down a group in the periodic table. Xe (Xenon) is located below Ne (Neon) in Group 18 of the periodic table.

As we move down Group 18, the principal quantum number (n) increases, leading to the addition of more energy levels and an increase in atomic size. Therefore, Xe has a larger atomic radius than Ne.

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Gravity is also affected by mass. ____which is the amount of matter in an object?

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Mass is the amount of matter in an object.

Mass is a fundamental property of matter and is often described as the measure of an object's inertia or resistance to changes in motion. Mass is a scalar quantity and is typically measured in units such as kilograms (kg) or grams (g). The mass of an object is independent of its location and is constant, regardless of the gravitational field it is in. In other words, an object's mass remains the same whether it is on Earth, in space, or on another planet. Gravity, on the other hand, is the force of attraction between objects with mass. The strength of the gravitational force depends on the masses of the objects involved and the distance between them. In this sense, gravity is affected by mass since the magnitude of the gravitational force increases with the mass of the objects. In summary, mass is the measure of the amount of matter in an object, while gravity is the force of attraction between objects that is influenced by their masses.

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what is the concentration (in m) of an ammonia (nh₃) solution if 12.23g of ammonia are dissolved in enough water to make 560.0 ml of solution?

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To find out the concentration (in m) of an ammonia (NH₃) solution if 12.23g of ammonia are dissolved in enough water to make 560.0 ml of solution, the following steps need to be taken:

1. Calculate the molar mass of ammonia (NH₃) which is 14.01 g/mol for nitrogen and 3.01 g/mol for hydrogen, hence 14.01 + 3.01(3) = 17.04 g/mol.

2. Using the formula C= n/V, calculate the moles of ammonia in the solution by converting grams of ammonia to moles.12.23 g ÷ 17.04 g/mol = 0.717 mol.

3. Calculate the volume of the solution in liters. L = 560.0 mL = 560.0 mL ÷ 1000 mL/L = 0.560 L4. Calculate the concentration of the solution using the formula C= n/V.

Therefore, C = 0.717 mol ÷ 0.560 L = 1.28 M (mol/L).

Thus, the concentration of the ammonia solution is 1.28 M. The calculation is done by dividing the moles of the solute by the volume of the solution in liters.

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a sample of 11.3 g of fe2o3 reacts with 15.7 g co to yield fe and co2. the balanced chemical equation is fe2o3(s) 3co(g)⟶2fe(s) 3co2(g) which substance is the limiting reactant?

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Fe2O3 is the limiting reactant in this chemical reaction.

A limiting reactant is a type of chemical reaction that restricts the amount of product that can be formed because it is the first chemical that is completely consumed. It is also called a limiting reagent.

In a balanced chemical reaction, a limiting reagent is the reactant that is fully consumed during the reaction and limits the amount of product formed. The other reactants that are not fully consumed are in excess and do not limit the amount of product formed.

Therefore, to determine the limiting reagent, you need to compare the amount of each reactant to the stoichiometric coefficients in the balanced chemical equation.

To determine the limiting reactant between Fe2O3 and CO, you will need to calculate the amount of each reactant in moles and compare it with the stoichiometric coefficients in the balanced chemical equation.

The reactant that produces the smallest amount of product is the limiting reagent.Here is how to calculate the amount of each reactant:

Mass of Fe2O3 = 11.3 g

Molar mass of Fe2O3 = 159.7 g/mol

Number of moles of Fe2O3 = mass/molar mass = 11.3/159.7 = 0.0708 mol

Mass of CO = 15.7 g

Molar mass of CO = 28.0 g/mol

Number of moles of CO = mass/molar mass = 15.7/28.0 = 0.5607 mol

Using the balanced chemical equation, the stoichiometric ratio of Fe2O3 to CO is 1:3.

Therefore, the amount of CO required to react with 0.0708 mol of Fe2O3 is:

0.0708 mol Fe2O3 x (3 mol CO / 1 mol Fe2O3) = 0.2124 mol CO

The amount of CO actually used is 0.5607 mol, which is greater than the amount required to react with Fe2O3.

This means that CO is in excess and Fe2O3 is the limiting reactant.

Therefore, Fe2O3 is the limiting reactant.

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When 10.0 mL of 0.2 M iron(II) sulfate solution is added to 10.0 mL of 0.2 M iron(lII) nitrate, the resulting concentrations of Fe2+ and Fe3+ are Select one: a. 0.2 M and 0.2 M, respectively b.0.1 M and 0.1 M, respectively. c.0.4 M and 0.4 M, respectively.

Answers

The resulting concentrations of Fe²⁺ and Fe³⁺ ions are 0.003 M and 0.001 M, respectively.

To determine the resulting concentrations of Fe²⁺ and Fe³⁺ ions when 10.0 mL of 0.2 M iron(II) sulfate solution is added to 10.0 mL of 0.2 M iron(III) nitrate, we need to consider the stoichiometry of the reaction between Fe²⁺ and Fe³⁺.

The balanced chemical equation for the reaction between iron(II) sulfate (FeSO₄) and iron(III) nitrate (Fe(NO₃)₃) can be represented as follows:

2 Fe²⁺ + Fe³⁺ → 3 Fe²⁺ + 2 Fe³⁺

From the balanced equation, we can observe that two Fe²⁺ ions react with one Fe³⁺ ion, resulting in three Fe²⁺ ions and two Fe³⁺ ions.

Initially, we have 10.0 mL of a 0.2 M Fe²⁺ solution, which contains:

Concentration of Fe²⁺ = 0.2 M

Volume of Fe²⁺ solution = 10.0 mL

Therefore, the moles of Fe²⁺ initially present are:

moles of Fe²⁺ = concentration of Fe²⁺ × volume of Fe²⁺ solution

moles of Fe²⁺ = 0.2 M × 10.0 mL × (1 L / 1000 mL)

moles of Fe²⁺ = 0.002 mol

According to the stoichiometry of the reaction, 2 moles of Fe²⁺ will react with 1 mole of Fe³⁺. Therefore, the moles of Fe³⁺ initially present are:

moles of Fe³⁺ = 0.002 mol / 2

moles of Fe³⁺ = 0.001 mol

After the reaction, we have three times the initial moles of Fe²⁺, and two times the initial moles of Fe³⁺. Therefore, the resulting concentrations of Fe²⁺ and Fe³⁺ are:

Concentration of Fe²⁺ = (3 × moles of Fe²⁺) / total volume

Concentration of Fe²⁺ = (3 × 0.002 mol) / (10.0 mL + 10.0 mL) × (1 L / 1000 mL)

Concentration of Fe²⁺ = 0.003 M

Concentration of Fe³⁺ = (2 × moles of Fe³⁺) / total volume

Concentration of Fe³⁺ = (2 × 0.001 mol) / (10.0 mL + 10.0 mL) × (1 L / 1000 mL)

Concentration of Fe³⁺ = 0.001 M

Therefore, the resulting concentrations of Fe²⁺ and Fe³⁺ ions are 0.003 M and 0.001 M, respectively.

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build the orbital diagram for the ion most likely formed by phosphorus.

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The most stable ion that phosphorus is likely to form is the phosphide ion (P3-).

This ion has 18 electrons: 15 from phosphorus and 3 extra to achieve the stable noble gas configuration of argon (18 electrons). Here is the orbital diagram for the phosphide ion (P3-):[Ar] 3s²3p⁶. The orbital diagram shows the distribution of electrons in each orbital, with the orbitals listed in order of increasing energy. The noble gas configuration of argon is indicated in brackets to show that the phosphide ion has the same number of electrons as argon.

The first two energy levels are completely filled, with two electrons in the 1s orbital and two in the 2s orbital. The third energy level has three orbitals: 3s, 3p_x, and 3p_y, each of which can hold up to two electrons. In the phosphide ion, all three of these orbitals are completely filled with six electrons, leaving the remaining five electrons to fill the 3p_z orbital, which can hold up to six electrons. Therefore, the phosphide ion has three unpaired electrons in its 3p_z orbital.

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a 40-cm-long icicle hangs from the eave of a house on a day when the temperature is -2.0∘c. by how many millimeters does the icicle shrink if a bitterly cold wind drops the temperature to -30 ∘c?

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To determine the shrinkage of the icicle due to the change in temperature, we can use the coefficient of linear expansion for ice.

The coefficient of linear expansion for ice is approximately 51.3 x 10^(-6) per degree Celsius.

First, we need to calculate the change in temperature:

Change in temperature = Final temperature - Initial temperature

                    = -30°C - (-2.0°C)

                    = -30°C + 2.0°C

                    = -28.0°C

Next, we can calculate the shrinkage of the icicle using the formula:

Shrinkage = (Coefficient of linear expansion) * (Initial length) * (Change in temperature)

Shrinkage = (51.3 x 10^(-6) / °C) * (40 cm) * (-28.0°C)

         = (51.3 x 10^(-6)) * (40) * (-28.0) cm

         = -0.057 cm

To convert the shrinkage to millimeters, we multiply by 10:

Shrinkage in millimeters = -0.057 cm * 10

                        = -0.57 mm

Therefore, the icicle shrinks by approximately 0.57 millimeters when the temperature drops from -2.0°C to -30°C. The negative sign indicates a decrease in length.

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which of the following represents a strong electrolyte? view available hint(s) for part a hf ca(no3)2 nh3 ch3ch2oh

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The strong electrolyte among the given options is:

Ca(NO3)2

A strong electrolyte is a substance that completely dissociates into ions when dissolved in water, resulting in a high conductivity of electricity. In this case, Ca(NO3)2 (calcium nitrate) is a strong electrolyte because it dissociates into calcium ions (Ca2+) and nitrate ions (NO3-) in water.

On the other hand, the other options do not completely dissociate into ions when dissolved in water:

HF (hydrofluoric acid) is a weak electrolyte as it only partially dissociates into hydrogen ions (H+) and fluoride ions (F-).

NH3 (ammonia) is a weak electrolyte as it undergoes partial ionization to produce ammonium ions (NH4+) and hydroxide ions (OH-).

CH3CH2OH (ethanol) is a non-electrolyte as it does not dissociate into ions when dissolved in water.

Among the given options, only Ca(NO3)2 is a strong electrolyte as it completely dissociates into ions when dissolved in water.

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Citric acid, which is present in citrus fruits, is a triprotic acid (Table 16.3). Calculate the pH and the citrate ion (C6H5O73) concentration for a 0.050M solution of citric acid. Explain any approximations or assumptions that you make in your calculations.

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Citric acid, a triprotic acid found in citrus fruits, can be used to calculate the pH and concentration of citrate ions in a 0.050M solution.

To calculate the pH and citrate ion concentration of a 0.050M solution of citric acid, we need to consider the dissociation of each acidic hydrogen ion ([tex]H^+[/tex]). Citric acid has three dissociation steps, where each step corresponds to the removal of one hydrogen ion.

First, we assume that the dissociation of citric acid is independent and occurs sequentially. This means that each step only depends on the concentration of the previous species. In reality, this assumption may not be perfectly accurate, especially at higher concentrations or extreme pH values.

To calculate the pH, we need to determine the concentrations of citric acid and the citrate ions at each dissociation step. Starting with a 0.050M citric acid solution, we can use the Ka values to find the concentration of [tex]H^+[/tex] ions and citrate ions at each step. The pH can then be calculated using the equation: pH = [tex]-log[H^+].[/tex]

The citrate ion concentration can be obtained by subtracting the concentration of [tex]H^+[/tex] ions at each step from the initial citric acid concentration. This gives us the concentration of the citrate ion ([tex]C_6H_5O_7_3[/tex]) at each dissociation step.

In conclusion, by considering the dissociation of citric acid and making certain assumptions about its behavior, we can calculate the pH and citrate ion concentration in a 0.050M solution of citric acid. These calculations are based on the dissociation constants and involve sequential removal of acidic hydrogen ions.

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Which of the following equations represents an acid-base neutralization reaction?
Group of answer choices
H2SO4 + Zn → ZnSO4 + H2
Ba(OH)2 + Na2SO4 → BaSO4 + 2NaOH
HCl + KOH → KCl + H2O
NaNO3 + KOH → KNO3 + NaOH

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The equation HCl + KOH → KCl + H2O represents an acid-base neutralization reaction. Therefore, the equation that represents an acid-base neutralization reaction is HCl + KOH → KCl + H2O.

An acid-base neutralization reaction is defined as a type of chemical reaction in which an acid reacts with a base to produce salt and water. Here, the acid donates H+ ions and the base donates OH- ions. The net result is the neutralization of both acid and base.

HCl + NaOH → NaCl + H2O (hydrochloric acid and sodium hydroxide reacts to form sodium chloride and water).The above equation represents an acid-base neutralization reaction. Similarly, one of the equations provided in the question represents an acid-base neutralization reaction and it is: HCl + KOH → KCl + H2OThe remaining equations are:H2SO4 + Zn → ZnSO4 + H2 (single replacement reaction).Ba(OH)2 + Na2SO4 → BaSO4 + 2NaOH (double displacement reaction).NaNO3 + KOH → KNO3 + NaOH (double displacement reaction).

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the h⁺ concentration in an aqueous solution at 25 °c is 4.3 × 10⁻⁴. what is [oh⁻]?

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The [OH⁻] is found by applying the equation: Kw = [H⁺] [OH⁻] where Kw is the ion-product constant of water which is equal to 1.0 × 10⁻¹⁴ M² at 25 °C.

The ion product constant of water, Kw is the product of the concentration of hydrogen ions and hydroxide ions in pure water. Given that the concentration of H⁺ ions in an aqueous solution at 25 °C is 4.3 × 10⁻⁴, the [OH⁻] can be calculated as follows:[OH⁻] = Kw / [H⁺]=[OH⁻]=[1.0 × 10⁻¹⁴ M²] / [4.3 × 10⁻⁴ M]=2.33 × 10⁻¹¹ M. Therefore, the [OH⁻] is 2.33 × 10⁻¹¹ M. The given problem can be solved using the following formula: Kw = [H⁺] × [OH⁻]Kw represents the equilibrium constant for the reaction that occurs between H₂O (water) molecules to form H⁺ and OH⁻ ions. Its value is 1.0 × 10⁻¹⁴ at 25 °C. [H⁺] and [OH⁻] represent the concentration of H⁺ and OH⁻ ions, respectively.

We are given [H⁺] = 4.3 × 10⁻⁴We need to find [OH⁻]Let's start with finding Kw and then we will proceed with our solution. Kw = [H⁺] × [OH⁻]= (1.0 × 10⁻¹⁴ )Kw = [H⁺] × [OH⁻] = 4.3 × 10⁻⁴ × [OH⁻]We know, [OH⁻] = Kw /[H⁺] = 1.0 × 10⁻¹⁴ / 4.3 × 10⁻⁴= 2.3 × 10⁻¹¹So, [OH⁻] is 2.3 × 10⁻¹¹.

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