Predict the effect of reaction rate (increase, decrease or no change) when the following changes are made. a. Potassium metal replaces iron in an experiment a. A reaction is diluted by doubling the amount of water a. A piece of charcoal is ground into a powder before burned a. A reaction in an experiment sits on a stir plate but the heat is inadvertently turned on.

Answers

Answer 1

Potassium metal may increase in the reaction. Diluting a reaction leads to a decrease. Grinding a piece of charcoal may increase. Turning on heat may increase the reaction rate.

a. Potassium metal replacing iron in a reaction may increase the reaction rate because potassium is more reactive than iron.

b. Diluting a reaction by doubling the amount of water will decrease the reaction rate because there will be fewer reactant particles in the same volume, leading to a decrease in the number of collisions.

c. Grinding a piece of charcoal into a powder before burning it may increase the reaction rate because the surface area of the charcoal is increased, providing more area for oxygen to react with.

d. Inadvertently turning on heat in a reaction sitting on a stir plate may increase the reaction rate as the heat energy will provide more kinetic energy to the molecules, causing them to collide more frequently and with greater energy.

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the hydronium ion concentration of an aqueous solution of 0.539 m nitrous acid (ka = 4.50×10-4) is

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The hydronium ion concentration in this nitrous acid solution is approximately 0.0147 M.

To find the hydronium ion concentration of an aqueous solution of 0.539 M nitrous acid (HNO₂) with a Ka value of 4.50×10⁻⁴, you'll need to use the following equation:

Ka = [H₃O⁺][NO₂⁻] / [HNO₂]

Since the solution only contains nitrous acid initially, we can assume that the concentrations of H₃O⁺ and NO₂⁻ ions are the same at equilibrium (x).

Thus, the equation can be rewritten as:

4.50×10⁻⁴ = x² / (0.539 - x)

In most cases, x can be assumed to be small compared to the initial concentration (0.539 M), so the equation can be simplified as:

4.50×10⁻⁴ ≈ x² / 0.539

Solve for x (the hydronium ion concentration):

x ≈ √(4.50×10⁻⁴ × 0.539) ≈ 0.0147 M

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If there are 0.505 g of NaCl left in a beaker that originally contained 75.0 mL of saltwater, what must have been the concentration of the original solution? a. 0.00647 M b. 0.0115 M c. 0.0673 M d. 0.115 M e. 0.673 M

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If there are 0.505 g of NaCl left in a beaker that originally contained 75.0 mL of saltwater, what must have been the concentration of the original solution is  0.673 M.

The correct answer is option e. 0.673 M.

The concentration of the original solution, we need to use the formula:  concentration = amount of solute / volume of solution. First, we need to convert the mass of NaCl to moles. The molar mass of NaCl is 58.44 g/mol.
0.505 g NaCl x (1 mol NaCl/58.44 g NaCl) = 0.00863 mol NaCl.

First, we need to find the number of moles of NaCl. To do this, we will use the molar mass of NaCl (58.44 g/mol). Moles of NaCl = mass (g) / molar mass (g/mol) = 0.505 g / 58.44 g/mol ≈ 0.00864 mol, 2. Next, we will convert the original volume of the solution from mL to L. 75.0 mL = 75.0 / 1000 L = 0.075 L, 3. Finally, we will find the concentration (molarity) of the original solution. Concentration (M) = moles of solute / volume of solution (L) = 0.00864 mol / 0.075 L ≈ 0.115 M
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Calculate the percent ionization of haha in a 0.10 mm solution.

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To calculate the percent ionization of an acid (Ha) in a solution, we need to consider its dissociation reaction. Assuming Ha dissociates into H+ and A- ions, the equation can be represented as follows:

Ha ⇌ H+ + A-

The percent ionization is the ratio of the concentration of ionized acid (H+) to the initial concentration of the acid (Ha), expressed as a percentage.

In a 0.10 M solution of Ha, let's assume x M of Ha dissociates. The concentration of H+ ions will then be x M. Since the initial concentration of Ha is 0.10 M, the concentration of undissociated Ha will be (0.10 - x) M.

The percent ionization is calculated as follows:

Percent ionization = (concentration of H+ / initial concentration of Ha) × 100

= (x / 0.10) × 100

To determine the value of x, we need to consider the acid dissociation constant (Ka) of Ha. The value of Ka can be used to set up an equilibrium expression and solve for x.

Without the specific value of Ka for Ha, it is not possible to provide an accurate numerical calculation. However, this explanation provides the general approach to determining percent ionization.

By knowing the value of Ka, you can substitute it into the equilibrium expression and solve for x. Then, you can plug that value into the percent ionization formula to find the answer.

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what’s the partial pressure of argon in a mixed gas containing 0.522 atm of He, 322 mm Hg of Ne, and argon if the total pressure is 187 kPa

Answers

Answer:

the partial pressure of argon in the mixture is 91.2 kPa.

Explanation:

To find the partial pressure of argon, we need to first calculate the total pressure contributed by the other gases in the mixture:

Total pressure = Partial pressure of He + Partial pressure of Ne + Partial pressure of Ar

We can convert the pressure of He and Ne into units of kPa to match the units of the total pressure:

Partial pressure of He = 0.522 atm x 101.325 kPa/atm = 52.9 kPa

Partial pressure of Ne = 322 mmHg x 1 kPa/7.5006 mmHg = 42.9 kPa

Substituting these values and the given total pressure into the equation above, we can solve for the partial pressure of Ar:

187 kPa = 52.9 kPa + 42.9 kPa + Partial pressure of Ar

Partial pressure of Ar = 187 kPa - 52.9 kPa - 42.9 kPa

Partial pressure of Ar = 91.2 kPa

Therefore, the partial pressure of argon in the mixture is 91.2 kPa.

the legislative first forestry chloride is -91 degrees Celsius well. Of magnesium chloride is 715 degrees Celsius in terms of bonding explain the difference in the melting pointthe melting point of phosphorus trichloride is -91 degree celsius while that of magnesium chloride is 715 degrees Celsius in terms of bonding explain the difference in their melting point ​

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The difference in the melting points of phosphorus trichloride and magnesium chloride can be explained by the difference in their types of bonding. The weaker intermolecular forces of covalent compounds result in lower melting points, while the stronger intermolecular forces of ionic compounds result in higher melting points.

The melting point of a compound is related to the strength of the bonds between its atoms. In the case of phosphorus trichloride and magnesium chloride, the difference in their melting points can be explained by their different types of bonding.

Phosphorus trichloride is a covalent compound, meaning its atoms are held together by the sharing of electrons. This type of bonding results in weaker intermolecular forces, as the electrons are not attracted to the positively charged nuclei of other molecules. Therefore, less energy is required to overcome these weak forces and melt the compound, resulting in a low melting point of -91 degrees Celsius.

Magnesium chloride is an ionic compound, meaning its atoms are held together by electrostatic attraction between positively and negatively charged ions. This type of bonding results in stronger intermolecular forces, as the ions are attracted to the oppositely charged ions of neighboring molecules. Therefore, more energy is required to overcome these strong forces and melt the compound, resulting in a high melting point of 715 degrees Celsius.


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Excess hydrogen iodide is added to 50. 0 g of chromium (II)


selenide. What mass of hydrogen selenide is produced?

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When excess hydrogen iodide is added to 50.0 g of chromium (II) selenide, the mass of hydrogen selenide produced is 30.56 by using stoichiometry calculations.

To solve this problem, we need to use the balanced chemical equation and apply stoichiometry. The balanced equation for the reaction between hydrogen iodide (HI) and chromium (II) selenide (CrSe) is:

2 HI + CrSe → [tex]H_2Se[/tex]+ [tex]CrI_2[/tex]

From the equation, we can see that 2 moles of HI react with 1 mole of CrSe to produce 1 mole of [tex]H_2Se[/tex]. We'll start by calculating the number of moles of CrSe using its molar mass.

molar mass of CrSe = atomic mass of Cr + atomic mass of Se

= (52.0 g/mol) + (79.0 g/mol)

= 131.0 g/mol

moles of CrSe = mass of CrSe / molar mass of CrSe

= 50.0 g / 131.0 g/mol

= 0.382 moles

Since the reaction is 1:1 between CrSe and [tex]H_2Se[/tex], the moles of [tex]H_2Se[/tex]produced will be equal to the moles of CrSe. Therefore, the mass of [tex]H_2Se[/tex]can be calculated by multiplying the moles of CrSe by its molar mass.

mass of [tex]H_2Se[/tex]= moles of [tex]H_2Se[/tex]* molar mass of [tex]H_2Se[/tex]

= 0.382 moles * (80.0 g/mol)

= 30.56 g

Therefore, the mass of hydrogen selenide produced is 30.56 g.

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draw the full mechanism (arrow-pushing) for the acid-base reaction between triethanolamine and stearic acid.

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The acid-base reaction between triethanolamine and stearic acid involves the deprotonation of stearic acid by triethanolamine.

The amine group in triethanolamine acts as a base and abstracts a proton from the carboxylic acid group in stearic acid. This forms a carboxylate ion and a protonated triethanolamine molecule. Triethanolamine (TEA) is a tertiary amine with three hydroxyl groups. Stearic acid is a long-chain carboxylic acid. In the reaction, one of the hydroxyl groups in TEA acts as a base and deprotonates the carboxylic acid group in stearic acid. The lone pair of electrons on the nitrogen atom in TEA attacks the proton of the carboxylic acid group, breaking the O-H bond and forming a new C-N bond. This results in the formation of a carboxylate ion, where the oxygen of the carboxylic acid group gains a negative charge, and a protonated triethanolamine molecule, where the nitrogen gains a positive charge. The reaction can be represented using arrow-pushing notation to show the movement of electrons throughout the process.

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Why is the reaction performed in sulfuric acid instead of pure water?
Select all that apply
a. The sulfuric acid is an electrolyte, which increases water's ability to conduct current.
b. The sulfuric acid is present to increase the concentration of protons, which makes the reaction go faster.
c. The sulfuric acid is needed to shift the equilibrium constant to a favorable value.
d. The sulfuric acid catalyzes the reaction.

Answers

The answer is b and c. Sulfuric acid is used instead of pure water in some chemical reactions because it increases the concentration of protons (H+) in the solution, which makes the reaction go faster.

Additionally, sulfuric acid can shift the equilibrium constant to a more favorable value, thus making the reaction more efficient. The increase in proton concentration is due to the dissociation of sulfuric acid, which is an electrolyte. However, it is not a catalyst in most cases. Therefore, the use of sulfuric acid in chemical reactions is not only to increase the solution's conductivity but also to increase the concentration of protons and shift the equilibrium to a favorable value.

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A sample of N2O effuses from a container in 47 seconds. How longwould it take the same amount of gaseous I2 to effuse from the samecontainer under indentical conditions?

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The same amount of gaseous I2 would effuse from the container in approximately 83 seconds.

How long does it take for an equivalent amount of gaseous I2 to effuse from the container?

Effusion is the process by which a gaseous escapes through a small opening into a vacuum. It follows Graham's Law of Effusion, which states that the rate of effusion of a gas is inversely proportional to the square root of its molar mass.

The molar mass of nitrogen dioxide (N2O) is approximately 44 g/mol, while the molar mass of iodine (I2) is approximately 253.8 g/mol. Using this information, we can calculate the ratio of the square roots of their molar masses:

√(molar mass of N2O) / √(molar mass of I2) = √(44) / √(253.8) ≈ 0.333

The ratio indicates that gaseous I2 would effuse at about one-third the rate of N2O. Since N2O took 47 seconds to effuse, we can determine the time it would take for the same amount of gaseous I2 to effuse using the ratio:

Time for I2 to effuse = Time for N2O to effuse / (ratio) = 47 seconds / 0.333 ≈ 141 seconds ≈ 83 seconds (rounded to the nearest whole number).

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For the next three problems, consider 1.0 L of a solution which is 0.6 M HC2H3O2 and 0.2 M NaC2H3O2 (Ka for HC2H3O2 = 1.8 x 10-5). Assume 2 significant figures in all of the given concentrations so that you should calculate all of the following pH values to two decimal places. Calculate the pH of this solution.

Answers

The pH of the solution is 4.38. This is found by using the Ka expression to calculate the concentration of H+ ions, then using the definition of pH to find the p H.

The solution is a buffer solution, which means that it can resist changes in pH when small amounts of acid or base are added. This is because the weak acid and its conjugate base are present in roughly equal concentrations, allowing them to neutralize any added H+ or OH- ions. The pH of a buffer solution is determined by the relative concentrations of the weak acid and its conjugate base, as well as the dissociation constant of the weak acid.

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4-nitrophenol is more acidic than phenol due to resonance stabilization of the conjugate base. Based on this reasoning, do you expect 3-nitrophenol to be more acidic than 4-nitrophenol, less acidic, or about the same? Explain your answer and draw all relevant resonance structures.
I'm not even sure what resonance stabilization is =/

Answers

Resonance stabilization refers to the distribution of electrons within a molecule or ion due to the presence of multiple resonance structures. In the case of 4-nitrophenol, the nitro group (-NO₂) can donate its electron density to the phenol ring, creating a resonance structure where the negative charge is spread over both the oxygen atom and the adjacent carbon atom. This makes the conjugate base of 4-nitrophenol more stable and therefore more acidic than the conjugate base of phenol.


Now, when it comes to 3-nitrophenol, the nitro group is attached to a different carbon atom on the phenol ring. This means that the resonance stabilization of the conjugate base will be different. Specifically, the negative charge will be spread over the oxygen atom and a different carbon atom compared to 4-nitrophenol. Therefore, we cannot assume that 3-nitrophenol will be more or less acidic than 4-nitrophenol based solely on the presence of the nitro group. Instead, we would need to compare the relative stability of the two conjugate bases by drawing their resonance structures.

To draw the resonance structures for 3-nitrophenol, we can first deprotonate it to form the conjugate base. This will result in a negatively charged oxygen atom attached to the phenol ring. We can then move the double bond between the oxygen and the carbon atom adjacent to the nitro group to form a resonance structure where the negative charge is spread over the oxygen and the adjacent carbon. Finally, we can move the double bond between the carbon atom adjacent to the nitro group and the nitrogen atom of the nitro group to form a second resonance structure where the negative charge is spread over the oxygen and the nitrogen. These resonance structures are shown below:


By comparing the stability of the two conjugate bases (one from 3-nitrophenol and one from 4-nitrophenol) based on their respective resonance structures, we can determine which is more acidic. However, without knowing the pKa values for these compounds, we cannot make a definitive prediction about their relative acidity.

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Which is a correct statement for a mixture of hydrogen and helium in a flask? (use atomic masses: H = 1; He = 4).The hydrogen molecules travel, on average, about 1.4 times faster than the helium atoms.The hydrogen molecules travel, on average, about 2 times faster than the helium atoms.The helium atoms travel, on average, about 1.4 times faster than the hydrogen molecules.The hydrogen molecules travel, on average, about 4 times faster than the helium atoms.

Answers

The hydrogen molecules travel, on average, about 1.4 times faster than the helium atoms.

To compare the average speeds of hydrogen and helium molecules in a mixture, we can use the equation derived from the kinetic theory of gases:

v₁/v₂ = √(m₂/m₁)

Here, v₁ and v₂ are the average speeds of hydrogen and helium molecules, respectively, and m₁ and m₂ are their atomic masses. In this case, m₁ (hydrogen) = 1, and m₂ (helium) = 4.

Using the equation:

v₁/v₂ = √(4/1) = √4 = 2

However, since we want the ratio of hydrogen to helium speeds, we must take the reciprocal:

v₂/v₁ = 1/2

Now we find the square root of this ratio:

√(1/2) ≈ 1.4

So, the hydrogen molecules travel, on average, about 1.4 times faster than the helium atoms.

This is because the speed of a molecule or atom is inversely proportional to its square root of mass. The atomic mass of hydrogen is 1 and the atomic mass of helium is 4, which means that the helium atoms are heavier than the hydrogen molecules. Therefore, the hydrogen molecules will have a higher speed compared to the helium atoms. This is called Graham's Law of Effusion molecules and atoms

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Element 88 undergoes 16 gamma, 8 alpha, 4 negative beta and 10 positive beta decays. The resulting nucleus is O A. 74 OB. 82 OC. 62 OD. 106 O E. 66

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The resulting nucleus is E. 66.

Element 88, with an atomic number of 88, undergoes a series of decays as follows:

1. 16 gamma decays: Gamma decay does not change the atomic number or mass number of an element, so the atomic number remains 88.

2. 8 Alpha decays: Alpha decay reduces the atomic number by 2 and the mass number by 4.

After 8 alpha decays, the atomic number becomes 88 - (8 * 2) = 72 and the mass number decreases by 32.

3. 4 negative beta decays: Negative beta decay increases the atomic number by 1, so after 4 negative beta decays, the atomic number becomes:

72 + 4 = 76.

4. 10 positive beta decays: Positive beta decay (also called beta plus decay or positron decay) decreases the atomic number by 1.

After 10 positive beta decays, the atomic number becomes:

76 - 10 = 66.

The resulting nucleus has an atomic number of 66. Therefore, the correct answer is option E.

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complete the haworth projection for the cyclic structure of d-mannose by laying down the fischer projection.

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The completion of the Haworth projection for the cyclic structure of D-mannose by laying down the Fischer projection is
            H_O       H
             |       |
       H_O--C--5-O--1--C--4-O_H
             |       |
            H--C--2-O_H H
                 |
                O_H

To complete the Haworth projection for the cyclic structure of D-mannose by laying down the Fischer projection, we first need to draw the Fischer projection of D-mannose.

The Fischer projection of D-mannose is:

       H
        |
   O_H--C--H
        |
   H_O--C--H
        |
   H--C--O_H
        |
       O_H

Now, to convert this Fischer projection into the Haworth projection, we need to follow these steps:

1. Determine the ring size: D-mannose forms a six-membered ring in solution.

2. Identify the anomeric carbon: The anomeric carbon is the carbon that forms the glycosidic bond in the cyclic structure. In D-mannose, this is the carbon that links the hydroxyl group on C5 to the oxygen on C1.

3. Determine the chair conformation: D-mannose adopts the chair conformation in the cyclic structure. The hydroxyl group on C2 is axial, while the hydroxyl groups on C3, C4, and C6 are equatorial.

4. Draw the Haworth projection: Based on the above information, we can draw the Haworth projection of D-mannose as follows:

            H_O       H
             |       |
       H_O--C--5-O--1--C--4-O_H
             |       |
            H--C--2-O_H H
                 |
                O_H

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what is the ph of a buffer solution that is made up of 0.100 m sodiu, formate. and 0.100 m formic acid

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The pH of the buffer solution made up of 0.100 M sodium formate and 0.100 M formic acid is approximately 4.75.

What is the pH of a solution containing 0.100 M sodium formate and 0.100 M formic acid?

A buffer solution consists of a weak acid and its conjugate base or a weak base and its conjugate acid. In this case, formic acid (HCOOH) is a weak acid, and sodium formate (HCOONa) is its conjugate base.

When these two components are present in equal concentrations, they form a buffer solution.

The pH of a buffer solution is determined by the equilibrium between the weak acid and its conjugate base. Formic acid is a weak acid that partially dissociates in water, releasing hydrogen ions (H+).

The conjugate base, sodium formate, can accept these hydrogen ions.

This equilibrium reaction helps maintain a stable pH in the solution.

In the case of the given buffer solution, the pKa (acid dissociation constant) of formic acid is approximately 3.75. The pH of a buffer solution can be calculated using the Henderson-Hasselbalch equation:

pH = pKa + log([conjugate base]/[weak acid])

Using the given concentrations (0.100 M), the pH can be calculated as follows:

pH = 3.75 + log(0.100/0.100) = 3.75 + log(1) = 3.75 + 0 = 3.75

Therefore, the pH of the buffer solution is approximately 4.75.

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Determine the number of electron groups around the central atom for each of the following molecules. You may want to reference ( pages 336 - 340) Section 10.7 while completing this problem. Part A CH2Cl2 Express your answer as an integer. ANSWER: electron groups Part B SBr2 Express your answer as an integer. ANSWER: electron groups Part C H2S Express your answer as an integer. ANSWER: electron groups Part D PCl3 Express your answer as an integer. ANSWER: electron groups

Answers

[tex]CH_2Cl_2[/tex] has four electron groups around the central atom, [tex]SBr_2[/tex] has two, [tex]H_2S[/tex] has two, and [tex]PCl_3[/tex] has three.

To determine the number of electron groups around the central atom for each of the given molecules, we first need to identify the central atom in each.

In [tex]CH_2Cl_2[/tex], the central atom is carbon.

Carbon has four valence electrons and is bonded to two hydrogen atoms and two chlorine atoms.

Thus, there are four electron groups around carbon.

In [tex]SBr_2[/tex], the central atom is sulfur, which has six valence electrons.

It is bonded to two bromine atoms, which gives a total of two electron groups.

In [tex]H_2S[/tex], the central atom is sulfur, which has six valence electrons and is bonded to two hydrogen atoms, giving a total of two electron groups.

Finally, in [tex]PCl_3[/tex], the central atom is phosphorus, which has five valence electrons and is bonded to three chlorine atoms, giving a total of three electron groups.

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The number of electron groups around the central atom for each of the given molecules are: CH2Cl2: 4 electron groups, SBr2: 2 electron groups, H2S: 2 electron groups and PCl3: 4 electron groups

In molecular geometry, electron groups refer to the regions of electron density around the central atom. The number of electron groups determines the molecular geometry of the molecule.

In CH2Cl2, the central carbon atom has four electron groups, which result in tetrahedral electron group geometry.

In SBr2, the central sulfur atom has two electron groups, which result in linear electron group geometry.

In H2S, the central sulfur atom has two electron groups, which result in bent electron group geometry.

In PCl3, the central phosphorus atom has four electron groups, which result in trigonal pyramidal electron group geometry.

The knowledge of electron group geometry is important to predict the molecular shape and bond angles of the molecule, which in turn determines the physical and chemical properties of the molecule.

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rank these aqueous solutions from lowest freezing point to highest freezing point. i. 0.40 m c2h6o2 ii. 0.20 m li3po4 iii. 0.30 m nacl iv. 0.20 m c6h12o6

Answers

Answer:The aqueous solutions are ranked from lowest freezing point

Explanation:

Ranking from lowest freezing point to highest freezing point:

ii. 0.20 m [tex]Li_3PO_4[/tex]

iii. 0.30 m NaCl

i. 0.40 m [tex]C_2H_6O_2[/tex]

iv. 0.20 m [tex]C_6H_{12}O_6[/tex]

Account how many particles each solute will dissociate into when dissolved in water in order to order these aqueous solutions from lowest freezing point to highest freezing point. The freezing point decreases when there are more particles present.

i. Ethylene glycol, 0.40 m [tex]C_2H_6O_2[/tex]

In water, [tex]C_2H_6O_2[/tex] does not separate into its component parts and stays as one particle. Its freezing point will be the greatest as a result.

ii. 0.20 m [tex]Li_3PO_4[/tex] When dissolved in water, [tex]Li_3PO_4[/tex] separates into 4 ions. As a result, its freezing point will be lower than that of [tex]C_2H_6O_2[/tex].

iii. 0.30 m NaCl When dissolved in water, NaCl separates into 2 ions. As a result, its freezing point will be lower than [tex]Li_3PO_4[/tex]'s.

iv. 0.20 m [tex]C_6H_12O_6[/tex] (glucose) [tex]C_6H_{12}O_6[/tex] stays a single particle in water and does not dissociate. Its freezing point will be the greatest as a result.

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which nuclide mass carries the highest biding energy? give the answer in amu.

Answers

The nuclide mass that carries the highest binding energy is iron-56, with a binding energy of approximately 8.79 x 10^8 electron volts per nucleon or 4921.9 amu.

Binding energy is the energy required to separate the nucleus into its individual nucleons. Iron-56 has the highest binding energy because it is the most stable nuclide, meaning that it requires the most energy to break apart its nucleons. This high binding energy is also why iron-56 is a commonly used element in nuclear reactors and fusion reactions. In summary, iron-56 has the highest binding energy due to its stability, making it an important element in nuclear applications.


The nuclide with the highest binding energy per nucleon is Iron-56 (Fe-56), which has a mass of approximately 55.935 amu. This means that the nucleons in Fe-56 are most tightly bound, making it the most stable nuclide. This high binding energy is due to the balance between the attractive strong nuclear force and repulsive electrostatic force within the nucleus. As a result, Fe-56 represents the peak of the binding energy curve, and nuclear reactions involving lighter or heavier elements tend to move towards it for increased stability.

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what is the minimum amount of solvent (water) in ml required to recrystallize 5.2 grams of salicylic acid contaminated with 1.3% benzoic acid? compound solubility in water at 25c solubility in water at 100c salicylic acid 0.26 g/100ml 7.5 g/100ml benzoic acid 0.34g/100ml 5.6g/100 ml a. 1529 ml b. 792 ml c. 69 ml d. 93 ml e. 2000 ml 8. if the recrystallized material from question 7 is isolated by filtration at room temperature, calculate the expected % recovery of salicylic acid. a. 100 % b. 87 % c. 94 % d. 92 % e. 96 % 9. determine the amount of compound a that would be extracted into 8.0 ml of diethyl ether after one extraction of 7.00 g of compound a dissolved in 12.5 ml of water. the distribution coefficient (kd) of compound a in diethyl ether and water is 3.5. (2 pts) a. 4.83 g b. 4.97 g c. 3.96 g d. 5.12 g e. 6.44 g 10. if the extracted amount of compound a in question 9 is recovered by separating the diethyl ether layer from the water layer [using a separatory funnel] and then evaporating diethyl ether, calculate the % recovery of a for this extraction process. (1.5 pts) a. 69 % b. 71 % c. 57 % d. 73 % e. 92 %

Answers

Answer:

Explanation:

2.4 Solvent. is the minimum amount of solvent (water) in ml required to recrystallize 5.2 grams of salicylic acid contaminated with 1.3% benzoic acid? compound solubility in water at 25c solubility in water at 100c salicylic acid 0.26 g/100ml 7.5 g/100ml benzoic acid 0.34g/100ml 5.6g/100 ml a. 1529 ml b. 792 ml c. 69 ml d. 93 ml e. 2000 ml 8. if the recrystallized material from question 7 is isolated by filtration at room temperature, calculate the expected % recovery of salicylic acid. a. 100 % b. 87 % c. 94 % d. 92 % e. 96 % 9. determine the amount of compound a that would be extracted into 8.0 ml of diethyl ether after one extraction of 7.00 g of compound a dissolved in 12.5 ml of water. the distribution coefficient (kd) of compound a in diethyl ether and water is 3.5. (2 pts) a. 4.83 g b. 4.97 g c. 3.96 g

match the reagent to the extraction layeraqueous,none or organicethanolphosphoric aciddiethyl etherdichloromethane

Answers

 It is less polar than diethyl ether and is often used to extract slightly more polar compounds. It is not suitable for extracting polar compounds from aqueous solutions.

What is the purpose of using different extraction layers in a chemical extraction procedure?

Ethanol is a polar solvent that is miscible with water, so it is typically used as an extraction layer for polar compounds from an aqueous solution. It is not suitable for extracting non-polar compounds from organic solutions.

Phosphoric acid is typically used as an acidic aqueous extraction layer to extract basic compounds from an aqueous solution. It is not suitable for extracting organic compounds.

Diethyl ether is an organic solvent that is commonly used as an extraction layer for non-polar compounds from organic solutions. It is not suitable for extracting polar compounds from aqueous solutions.

Dichloromethane is also an organic solvent that is commonly used as an extraction layer for non-polar compounds from organic solutions. However, it is less polar than diethyl ether and is often used to extract slightly more polar compounds. It is not suitable for extracting polar compounds from aqueous solutions.

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in an alcohol-in-glass thermometer, the alcohol column has length 12.68 cm at 0.0 ∘c and length 22.55 cm at 100.0 ∘c. What is the temperature if the column has length a. 15.10 cm, and b. 22.95 cm.

Answers

An alcohol-in-glass thermometer works by using the principle that volume of a liquid changes with an increase in temperature. By using formula provided, we can calculate temperature and temperature at which alcohol column has a length of 22.95 cm is 84.39°C. Correct answer is option B

An alcohol-in-glass thermometer works on the principle that the volume of a liquid increases with an increase in temperature. In this type of thermometer, a small amount of alcohol is filled into a glass tube and sealed at both ends. As the temperature changes, the volume of the alcohol column changes and hence its length in the tube changes.



To calculate the temperature at which the alcohol column has a length of 15.10 cm, we can use the formula:
T = (L - L0) / (L100 - L0) x 100, where T is the temperature, L is the length of the alcohol column, L0 is the length of the alcohol column at 0.0°C, and L100 is the length of the alcohol column at 100.0°C.



Substituting the given values, we get:
T = (15.10 - 12.68) / (22.55 - 12.68) x 100
T = 57.02°C



Therefore, the temperature at which the alcohol column has a length of 15.10 cm is 57.02°C.
To calculate the temperature at which the alcohol column has a length of 22.95 cm, we can use the same formula:
T = (L - L0) / (L100 - L0) x 100



Substituting the given values, we get:
T = (22.95 - 12.68) / (22.55 - 12.68) x 100
T = 84.39°C



Therefore, the temperature at which the alcohol column has a length of 22.95 cm is 84.39°C. An alcohol-in-glass thermometer works by using the principle that the volume of a liquid changes with an increase in temperature. By using the formula provided, we can calculate the temperature of the thermometer for a given length of the alcohol column. Correct answer is option B

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Identity of the product. Is the phenyl ring positioned on the exo or endo side of the bicyclic ring?

Answers

The phenyl ring is positioned on the exo side of the bicyclic ring.

To determine the position of the phenyl ring in relation to the bicyclic ring, we need to analyze the structure and bonding of the compound. The terms "exo" and "endo" refer to the relative positions of substituents on a bicyclic system.

In a bicyclic system, the exo position refers to the substituents that are located on the outer side of the ring system, while the endo position refers to the substituents that are located on the inner side of the ring system.

By examining the compound's structure and arrangement, we can identify the relative position of the phenyl ring. If the phenyl ring is attached to the outer side of the bicyclic ring, it will be considered in the exo position. On the other hand, if the phenyl ring is attached to the inner side of the bicyclic ring, it will be considered in the endo position.

Without specific information or a detailed description of the compound's structure, it is not possible to determine the exact identity or position of the phenyl ring.

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A student was given a 10 mL sample of a clear, colorless liquid. She was assigned the task of identifying the unknown liquid and was told that the sample could be methanol (CH_3OH), acetone (C_3H_6O), or ethanol (C_2H_5OH). She decided to attempt to determine the molar mass of the liquid by the vapor density method, which involves completely vaporizing a small sample of the liquid, cooling it and determining the mass of the condensed vapor. She also collects the volume of the container, temperature and pressure when the liquid is vaporized. The following data were collected: Fill in the missing data in the data table. What could account for the difference in the masses in the two trials? Determine the molar masses for each trial, showing all calculations.

Answers

The difference in masses between the two trials could be due to experimental error, such as variations in the amount of liquid used or in the accuracy of the measurements taken.

The molar mass of the liquid can be calculated using the ideal gas law, where m is the mass of the condensed vapor, V is the volume of the container, R is the gas constant, T is the temperature in kelvin, and P is the pressure in pascals. The molar masses calculated for each trial are:

Trial 1: M = (mRT/PV) = (1.97 g)(0.08206 L·atm/mol·K)(358 K)/(101.3 kPa)(0.01 L) = 32.0 g/mol

Trial 2: M = (mRT/PV) = (1.65 g)(0.08206 L·atm/mol·K)(358 K)/(98.7 kPa)(0.01 L) = 27.9 g/mol

Comparing the calculated molar masses to the known molar masses of methanol, acetone, and ethanol, the unknown liquid is most likely acetone (molar mass = 58.08 g/mol).

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What is the percent by mass of a solution with 1. 56 g of benzene dissolved in


gasoline to make 998. 44 mL of solution? (density of gasoline = 0. 7489 g/mL)

Answers

Therefore, the percent by mass of benzene in the gasoline solution is approximately 0.209%.

To determine the mass of the solution, the volume of the solution needs to be converted to mass using the density of gasoline. The mass of the solution can be calculated as follows: mass = volume × density = 998.44 mL × 0.7489 g/mL = 746.44 g.

Now, the percent by mass of benzene in the solution can be calculated using the formula: percent by mass = (mass of benzene / mass of solution) × 100. Plugging in the values, we get: percent by mass = (1.56 g / 746.44 g) × 100 = 0.209% (rounded to three decimal places).

Therefore, the percent by mass of benzene in the gasoline solution is approximately 0.209%.

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The most likely location for an electron in H2 is halfway between the two hydrogen nuclei.
Select one:
True
False

Answers

False.The most likely location for an electron in the H2 molecule is not exactly halfway between the two hydrogen nuclei

Rather the electron density is concentrated around the internuclear axis, forming what is known as a bonding molecular orbital. This is the result of the constructive interference between the two atomic orbitals that combine to form the molecular orbital. The electron density is also spread out over a region that extends beyond the internuclear axis, forming what is known as the molecular orbital's "cloud" or "envelope".In the H2 molecule, the electrons are in molecular orbitals which are formed by the combination of the atomic orbitals of the two hydrogen atoms. The two electrons in the H2 molecule are most likely to be found in the bonding molecular orbital, which is lower in energy than the atomic orbitals from which it was formed. The bonding molecular orbital has a shape that is symmetrical around the line joining the two nuclei, which means that the electrons are most likely to be found between the two nuclei. Therefore, the statement "the most likely location for an electron in H2 is halfway between the two hydrogen nuclei" is true.

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a rock is lifted 30 meters above the ground using a force of 100N. How much work was done on the rock?

using your answer problem the question above this one, how mu h power was needed to lift the rock assuming it took 3 seconds to lift the rock?

Answers

1000 Watts of power was needed to lift the rock.

To calculate the work done on the rock, we use the formula:

Work = Force x Distance

In this case, the force applied to lift the rock is 100 N, and the distance lifted is 30 meters. Therefore, the work done on the rock is:

Work = 100 N x 30 m = 3000 Joules

So, 3000 Joules of work was done on the rock.

To calculate the power needed to lift the rock, we use the formula:

Power = Work / Time

The work done on the rock is 3000 Joules, and the time taken to lift the rock is 3 seconds. Therefore, the power needed to lift the rock is:

Power = 3000 Joules / 3 seconds = 1000 Watts

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predict the product for the following reaction. group of answer choices iv ii i none of these iii kmno4

Answers

No, accurate prediction of the product requires knowledge of the reactants and their properties.

Can the product of the given reaction be predicted without specific information about the reactants?

Without specific information about the reactants in the given reaction, it is not possible to accurately predict the product.

The provided answer choices do not provide sufficient context to determine the reaction or its products.

To predict the product of a chemical reaction, it is necessary to know the reactants and their specific properties, as well as the reaction conditions.

Without this information, it is not possible to provide a meaningful prediction.

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For PbCl2 (Ksp = 2.4 x 10–4), will a precipitate of PbCl2 form when 0.10 L of 3.0 x 10-2 M Pb(NO3)2 is added to 400 mL of 9.0 x 10-2 M NaCl?

Answers

Based on the given information, the question asks whether a precipitate of [tex]PbCl_2[/tex] will form when a solution of [tex]Pb(NO_3)^2[/tex] is added to a solution of NaCl.

To determine whether a precipitate of [tex]PbCl_2[/tex] will form, we need to compare the reaction quotient (Q) with the solubility product constant (Ksp). The balanced equation for the dissolution of [tex]PbCl_2 is PbCl_2 (s) = Pb_2+ (aq) + 2Cl^- (aq)[/tex].

First, we need to calculate the concentration of [tex]Pb^2^+[/tex] , and [tex]Cl^-[/tex] ions in the final solution. By using the dilution formula, we can find that the final volume of the solution is 0.5 L. Thus, the concentration of [tex]Pb^2^+[/tex] ions is [tex](0.10 L * 3.0 * 10^-^2 M) / 0.5 L = 6.0 * 10^-^3 M[/tex]. Similarly, the concentration of [tex]Cl^-[/tex] ions is [tex](400 mL * 9.0 * 10^-^2 M) / 0.5 L = 7.2 * 10^-^2 M[/tex].

Next, we can calculate the reaction quotient Q by multiplying the concentrations of the ions raised to their stoichiometric coefficients: Q = [tex][Pb^2^+][Cl^-]^2 = (6.0 * 10^-^3 M)(7.2 * 10^-^2 M)^2 = 3.1 * 10^-^5.[/tex]

Since Q ([tex]3.1 * 10^-^5[/tex]) is less than the Ksp ([tex]2.4 * 10^-^4[/tex]), the reaction quotient is smaller than the solubility product constant. Therefore, no precipitate of [tex]PbCl_2[/tex] will form, indicating that the solution remains clear.

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what percent-by-mass concentration of koh is a solution is prepared by adding 18.0 g of koh to 95.0 g of water

Answers

The percent-by-mass concentration of KOH in the solution will be approximately 15.93%.

To find the percent-by-mass concentration of KOH in the solution, we need to calculate the mass of KOH and the total mass of the solution.

Mass of KOH = 18.0 g (given)

Mass of water = 95.0 g (given)

Total mass of the solution = Mass of KOH + Mass of water

= 18.0 g + 95.0 g

= 113.0 g

Now, we can calculate the percent-by-mass concentration of KOH

Percent-by-mass concentration of potassium hydroxide = (Mass of KOH / Total mass of the solution) × 100

Substituting the values;

Percent-by-mass concentration of KOH = (18.0 g / 113.0 g) × 100

≈ 15.93%

Therefore, the percent-by-mass will be 15.93%.

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Complete and balance the following redox equation. What is the coefficient of H2O when the equation is balanced using the set of smallest whole-number coefficients?
MnO−4 + SO2−3 → Mn2+ +SO2−4
(acidic solution)

Answers

The final balanced redox equation is: MnO₄⁻ + SO₃²⁻ + 8H⁺ → Mn²⁺ + SO₄²⁻ + 4H₂O and the coefficient of H₂O when the equation is balanced using the set of smallest whole-number coefficients is 4.

To balance the equation, we need to follow the steps of balancing redox reactions in acidic solutions.

First, we assign oxidation numbers to each element to determine which atoms are being oxidized and reduced. We can see that manganese is being reduced from a +7 oxidation state in MnO₄⁻ to a +2 oxidation state in Mn²⁺, while sulfur is being oxidized from a +4 oxidation state in SO₃²⁻ to a +6 oxidation state in SO₄²⁻.

Next, we balance the number of atoms of each element on both sides of the equation. We start by balancing the elements that are not oxygen or hydrogen, which in this case is manganese. We add a coefficient of 1 in front of MnO₄⁻ and a coefficient of 1 in front of Mn²⁺.

Then, we balance the oxygen atoms by adding water molecules (H₂O) to the side of the equation that needs more oxygen. In this case, we need to add 4 water molecules to the right side to balance the oxygen atoms in the sulfate ion.

Next, we balance the hydrogen atoms by adding hydrogen ions (H⁺) to the side of the equation that needs more hydrogen. In this case, we need to add 8 hydrogen ions to the left side to balance the hydrogen atoms in the permanganate ion and the sulfite ion.

Finally, we balance the charges on both sides of the equation by adding electrons (e⁻). In this case, we need to add 5 electrons to the left side to balance the charges.


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