Name the acid and the base from which the salt calcium sulphate is formed. also write the

balanced chemical equation for the chemical reaction​

Answers

Answer 1

Answer:

Calcium Carbonate base and Sulphuric acid.

CaCO3 and H2SO4

Answer 2

Answer:

Skeletal equation : Ca(OH)2 + H2SO4 ----> CaSO4 + H2O

Balanced equation : Ca(OH)2 + H2SO4 ---> CaSO4 + 2H2O

Hope it helps


Related Questions

How many of the following molecules are nonpolar: CF4, SF4, XeF4, PF5, IF5

Answers

Therefore, three of the molecules (CF4, XeF4, and PF5) are nonpolar, while two of them (SF4 and IF5) are polar.

To determine whether a molecule is polar or nonpolar, we need to consider its molecular geometry and the polarity of its individual bonds. If a molecule has all of its bonds arranged symmetrically around its central atom, then it is nonpolar. If, however, the bonds are arranged asymmetrically, then the molecule will be polar.

Looking at the molecules in the question, we can determine their molecular geometry as follows:

- CF4: Tetrahedral
- SF4: See-saw
- XeF4: Square planar
- PF5: Trigonal bipyramidal
- IF5: Octahedral

Using this information, we can predict whether each molecule is polar or nonpolar:

- CF4: Nonpolar - All of the bonds are arranged symmetrically around the central carbon atom.
- SF4: Polar - The molecule has a see-saw shape, which means that the fluorine atoms are not arranged symmetrically around the central sulfur atom. The lone pair of electrons on sulfur also contributes to the molecule's polarity.
- XeF4: Nonpolar - Although the molecule has a square planar shape, all of the bonds are arranged symmetrically around the central xenon atom.
- PF5: Nonpolar - The molecule has a trigonal bipyramidal shape, which means that the five fluorine atoms are arranged symmetrically around the central phosphorus atom.
- IF5: Polar - The molecule has an octahedral shape, but the iodine atoms are not arranged symmetrically around the central iodine atom. The lone pair of electrons on the central iodine atom also contributes to the molecule's polarity.

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For the common neutral oxyacids of general formula HxEOy (where E is an element), when x = 3 and y = 4, what could be E?
P
CL
S
N
For the common neutral oxyacids of general formula HxEOy (where E is an element), when x = 1 and y = 3, what could be E?For the common neutral oxyacids of general formula HxEOy (where E is an element), when x = 4 and y = 1, what could be E?

Answers

When x = 1, y = 3 the possible element E is sulfur (S).

The common neutral oxyacids of general formula [tex]$H_{x}E O_{y}$[/tex], where E is an element, are compounds that contain hydrogen, oxygen, and one other element E. The values of x and y determine the number of hydrogen and oxygen atoms in the molecule, respectively.

The common neutral oxyacid with this formula is sulfuric acid ([tex]$H_{2}S O_{4}$[/tex]), which is a strong acid widely used in industry and laboratory settings.

When x=1 and y=3, the possible elements E include phosphorus (P), chlorine (Cl), and nitrogen (N). The common neutral oxyacids with this formula are phosphoric acid ([tex]$H_{3}P O_{4}$[/tex]), chloric acid ([tex]$H C l O_{3}$[/tex]), and nitric acid ([tex]$H N O_{3}$[/tex]), respectively.

When x=4 and y=1, the possible element E is silicon (Si). The common neutral oxyacid with this formula is silicic acid ([tex]$H_{4}S i O_{4}$[/tex]), which is a weak acid and a precursor to many important industrial and biological materials.

In general, the properties of these neutral oxyacids depend on the nature of the element E and the number of hydrogen and oxygen atoms in the molecule.

The presence of these compounds in natural and industrial settings can have significant impacts on the environment and human health, making their study and understanding important for a range of fields, including chemistry, environmental science, and engineering.

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phage lambda chooses the lytic cycle a majority of the time under normal conditions. question 2 options: true false

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True. Under normal conditions, phage lambda chooses the lytic cycle to maximize its chances of replication and spreading.

Phage lambda, a type of bacteriophage, can undergo two different life cycles - lytic and lysogenic. The choice between these two cycles depends on the environmental conditions and the availability of host bacteria. Under normal conditions, phage lambda chooses the lytic cycle a majority of the time.

During the lytic cycle, the phage infects the host bacteria, takes over its machinery to produce viral progeny, and eventually lyses (bursts open) the host cell to release the newly formed phages. This is a rapid and efficient process for the phage to multiply and spread to other host cells.

On the other hand, under unfavorable conditions, such as a lack of host bacteria or exposure to stress factors, phage lambda may choose the lysogenic cycle. During this cycle, the phage integrates its genetic material into the host genome, becoming a prophage, and replicates along with the host chromosome. The phage remains dormant until it is triggered to enter the lytic cycle, which can occur under certain conditions.

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False. Under normal conditions, phage lambda usually chooses the lysogenic cycle, where it integrates its DNA into the host genome and replicates along with it.

Only under certain conditions, such as host stress or a high multiplicity of infection, does phage lambda choose the lytic cycle, where it replicates rapidly and causes the host cell to burst open. The lysogenic cycle is a process of viral replication that involves the integration of viral DNA into the host cell's genome, followed by a period of inactivity in which the viral DNA replicates along with the host DNA. The key steps of the lysogenic cycle are as follows:

Attachment: The virus attaches to the host cell.

Entry: The virus injects its DNA into the host cell.

Integration: The viral DNA integrates into the host cell's genome, becoming a prophage.

Replication: The host cell replicates its DNA, including the integrated viral DNA.

Cell division: The host cell divides, and the viral DNA is passed on to daughter cells.

Induction: In response to certain signals (such as stress), the prophage may be activated and begin the lytic cycle, in which the virus replicates and kills the host cell.

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The mass of cobalt-60 in a sample is found to have decreased from 0.800g to 0.200g in a period of 10.5 years. From this information, calculate the half-life of cobalt-60?

Answers

The half-life of cobalt-60 is 5.27 years.

The mass of cobalt-60 in a sample is found to have decreased from 0.800g to 0.200g in a period of 10.5 years. From this information, the half-life of cobalt-60 can be calculated as follows

Half-Life: The half-life of a radioactive substance refers to the time taken for half of the radioactive material to decay. It is denoted by T1/2.

Initial Mass: It is denoted by M0Final Mass: It is denoted by MT.From the question, Initial Mass, M0 = 0.800g

Final Mass, MT = 0.200gTime, t = 10.5 years

We can use the formula below to calculate the half-life of cobalt-60:M0/2 = MT = [tex]M0 * 2^-t/T1/2[/tex]

Rearranging the formula above to make T1/2 the subject, we have:T1/2 = t / ln 2 * log(M0 / MT)

Where:T1/2 = half-life of the substance (in years)t = time taken (in years)ln = natural logarithm (2.71828...)

M0 = initial mass MT = final mass

Plugging in the given values in the equation above:T1/2 = 10.5 / (ln 2) * log (0.8 / 0.2)T1/2 = 5.27 years

Therefore, the half-life of cobalt-60 is 5.27 years.

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5.00 mL of 0.0020 M Fe(NO_3)_2, 3.00 mL of 0.0020 M KSCN, and 2.00 mL of H_2O are mixed. From the absorbance and calibration curve, the equilibrium concentration of FeNCS^2+ is found to be 6.63 times 10^-5 M. is the equilibrium concentration of SCN^- (in mol/L)? You must show your work for full credit.

Answers

The equilibrium concentration of SCN- is directly proportional to the inverse of the absorbance.

The first step is to calculate the initial moles of Fe(NO3)2 and KSCN:

[tex]moles Fe(NO_3)_2 = (0.0020 M) * (5.00 mL / 1000 mL) = 1.00 * 10^-5 moles \\\\moles KSCN = (0.0020 M) * (3.00 mL / 1000 mL) = 6.00 * 10^-6 moles[/tex]

Since FeNCS2+ is in equilibrium, its concentration can be used to find the amount of SCN- that has reacted:

[tex]FeNCS_2+ = 6.63 x 10^-5 M = [SCN-][FeNCS_2+] \\\\[SCN-] = 6.63 x 10^-5 M / [FeNCS_2+][/tex]

Next, we need to find the equilibrium concentration of FeNCS2+ using the absorbance data and calibration curve. Let's assume the absorbance is A:

[tex][FeNCS_2+][/tex] = (A - y-intercept) / slope

where the y-intercept and slope can be obtained from the calibration curve.

Once we know the equilibrium concentration [tex][FeNCS_2+][/tex] , we can calculate the concentration of SCN-:

[SCN-] = [tex]6.63 * 10^-5 M[/tex] /[tex][FeNCS_2+][/tex]

Plugging in the value of [tex][FeNCS_2+][/tex] from the calibration curve, we get:

[SCN-] =[tex]6.63 * 10^-5 M[/tex] / ((A - y-intercept) / slope)

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what is the source of hydrogen during the loss of the leaving group to form the free amine? ammonium is used to generate hydrogen gas during the reaction. hydrogen gas is pumped into the solution from an external source. water donates two protons during this phase of the reaction. hexane donates two protons during this phase of the reaction. both hydrogen gas is pumped into the solution from an external source and hexane donates two protons during this phase of the reaction.

Answers

The source of hydrogen during the loss of the leaving group to form the free amine is water donates two protons during this phase of the reaction, option C.

Solar energy, or electromagnetic radiation, is produced in large quantities by the sun. Only a small portion of this energy, known as "visible light," is visible to humans. Waves may be used to explain and quantify how solar energy moves. The distance between two successive, comparable locations in a succession of waves, such as from crest to crest or trough to trough, is known as the wavelength and allows scientists to calculate the energy of a wave.

A certain range of wavelengths characterises each form of electromagnetic radiation. Less energy is carried when the wavelength is longer (or looks to be stretched out). The most energy is carried by short, tight waves. It might seem illogical at first, but picture a moving rope to help you understand. A person can move a rope in long, broad waves with little effort. One would have to use much more force to make a rope move in short, tight waves.

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Consider the titration of a 25.0?mL sample of 0.110M HC2H3O2 with 0.125M NaOH. Determine each quantity:
a) the initial pH
b) the volume of added base required to reach the equivalence point
c) the pH at 6.00mL of added base
d) the pH at one-half of the equivalence point
e) the pH at the equivalence point

Answers

To determine the quantities in the titration of HC2H3O2 (acetic acid) with NaOH, we need to consider the reaction between them. The balanced equation for the reaction is:

HC2H3O2 + NaOH → NaC2H3O2 + H2O

From the balanced equation, we can see that the stoichiometric ratio between HC2H3O2 and NaOH is 1:1. This means that when the reaction reaches the equivalence point, the moles of HC2H3O2 will be equal to the moles of NaOH added.

a) To find the initial pH, we need to determine the concentration of H+ ions in the acetic acid solution. Acetic acid is a weak acid, so we can use the expression for the ionization of acetic acid to calculate its initial concentration of H+ ions:

HC2H3O2 → H+ + C2H3O2-

The initial concentration of H+ ions can be calculated using the initial concentration of HC2H3O2, assuming it fully ionizes. Thus, [H+] = [HC2H3O2] = 0.110 M.

To calculate the initial pH, we can use the formula for pH: pH = -log[H+]. Plugging in the value for [H+], we have:

pH = -log(0.110) ≈ 0.96

Therefore, the initial pH is approximately 0.96.

b) At the equivalence point, the moles of HC2H3O2 will be equal to the moles of NaOH added. To find the volume of NaOH required to reach the equivalence point, we can use the equation:

n(HC2H3O2) = n(NaOH)

Since the initial concentration of HC2H3O2 is 0.110 M and the volume is 25.0 mL (0.0250 L), the initial moles of HC2H3O2 can be calculated as:

moles(HC2H3O2) = concentration(HC2H3O2) × volume(HC2H3O2)

= 0.110 M × 0.0250 L

= 0.00275 moles

Since the stoichiometric ratio between HC2H3O2 and NaOH is 1:1, the moles of NaOH required to reach the equivalence point are also 0.00275 moles.

To find the volume of NaOH required, we divide the moles of NaOH by its concentration:

volume(NaOH) = moles(NaOH) / concentration(NaOH)

= 0.00275 moles / 0.125 M

= 0.022 L or 22.0 mL

Therefore, the volume of added base required to reach the equivalence point is 22.0 mL.

c) To find the pH at 6.00 mL of the added base, we need to determine how much HC2H3O2 and NaOH are left in the solution. Since the stoichiometric ratio between HC2H3O2 and NaOH is 1:1, the moles of NaOH added at 6.00 mL will also be 0.00275 moles.

To calculate the moles of HC2H3O2 remaining, we subtract the moles of NaOH added from the initial moles of HC2H3O2:

moles(HC2H3O2 remaining) = moles(HC2H3O2 initial) - moles(NaOH added)

= 0

d) At one-half of the equivalence point:

One-half of the equivalence point corresponds to the point where half of the acetic acid has reacted with sodium hydroxide. This means that the moles of HC2H3O2 will be equal to half of its initial moles.

First, calculate the initial moles of HC2H3O2:

Moles = concentration x volume

Moles of HC2H3O2 = 0.110 M x 0.025 L = 0.00275 mol

At one-half of the equivalence point, half of the moles of HC2H3O2 will have reacted, leaving half of the moles remaining:

Moles of HC2H3O2 remaining = 0.00275 mol / 2 = 0.001375 mol

To determine the concentration of HC2H3O2 remaining, divide the moles by the volume of the solution at one-half of the equivalence point. Since the volume doubles at the equivalence point, the volume at one-half of the equivalence point is half of the total volume (25.0 mL / 2 = 12.5 mL = 0.0125 L):

Concentration of HC2H3O2 remaining = 0.001375 mol / 0.0125 L = 0.11 M

Since acetic acid is a weak acid, we can use the Henderson-Hasselbalch equation to calculate the pH at one-half of the equivalence point:

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

The pKa of acetic acid is approximately 4.76, and [A-]/[HA] is the ratio of the concentrations of the acetate ion (C2H3O2-) and acetic acid (HC2H3O2). At one-half of the equivalence point, the concentration of HC2H3O2 remaining is the same as the concentration of C2H3O2- formed. Therefore:

pH = 4.76 + log(0.11/0.11) = 4.76

e) At the equivalence point:

The equivalence point corresponds to the point where all the moles of HC2H3O2 have reacted with an equal number of moles of NaOH. This means that the moles of NaOH added will be equal to the initial moles of HC2H3O2.

Moles of NaOH = concentration x volume

Moles of NaOH = 0.125 M x 0.025 L = 0.003125 mol

Since the stoichiometry of the reaction is 1:1 between NaOH and HC2H3O2, the moles of HC2H3O2 reacted are also 0.003125 mol.

At the equivalence point, all the acetic acid has been converted to sodium acetate (NaC2H3O2). Therefore, the concentration of HC2H3O2 is zero, and the pH will be determined by the hydrolysis of sodium acetate.

Sodium acetate undergoes hydrolysis, resulting in the formation of hydroxide ions (OH-) and acetic acid. This reaction affects the pH of the solution. The hydrolysis of the sodium acetate is given by:

NaC2H3O2 + H2O -> HC2H3

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which of the following solids would be expected to display the highest melting point? b.c12h22o11 c.becl2 d.srcl2 e.ccl4

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Among the given options, the solid that would be expected to display the highest melting point is (c) BeCl2, beryllium chloride.

Melting point is a measure of the temperature at which a solid substance transitions from a solid to a liquid state. It is influenced by factors such as the strength and nature of intermolecular forces within the substance. In general, substances with stronger intermolecular forces tend to have higher melting points. Intermolecular forces can include hydrogen bonding, dipole-dipole interactions, or London dispersion forces. Among the options provided, BeCl2 is an ionic compound composed of beryllium cations (Be2+) and chloride anions (Cl-). Ionic compounds generally have strong electrostatic forces of attraction between ions, resulting in high melting points.

In contrast, the other options (b) C12H22O11 (sucrose), (d) SrCl2 (strontium chloride), and (e) CCl4 (carbon tetrachloride) are molecular compounds. These compounds typically have weaker intermolecular forces compared to ionic compounds, resulting in lower melting points. Therefore, based on the given options, BeCl2 is expected to display the highest melting point.

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Write balanced equations for the formation of the following compounds from their elements:a) ethanol(C2H6O)b) sodium sulfatec) dichloromethane (CH2Cl2

Answers

The balanced equations of the following compounds are as follows:

2 C + 6 H₂ + O2 → C₂H₆O.2 Na + O₂ + S → Na₂SO₄.CH₄ + Cl₂ → CH₂Cl₂ + HCl.

How to determine the balanced equations of a reaction?

These equations illustrate the chemical reactions where the elements combine in specific ratios to form the desired compounds. By balancing the number of atoms on both sides of the equations, we ensure the conservation of mass and charge during the formation process.

Hence,

a) The formation of ethanol (C₂H₆O) from its elements can be represented by the balanced equation: 2 C + 6 H₂ + O2 → C₂H₆O.

b) Sodium sulfate (Na2SO4) is formed from its elements through the balanced equation: 2 Na + O₂ + S → Na₂SO₄.

c) Dichloromethane (CH2Cl2) is synthesized from its elements with the balanced equation: CH₄ + Cl₂ → CH₂Cl₂ + HCl.

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rank the following diatomic species of boron in order of bond length and bond strength. ..... a. b2 ..... b. b2 ..... c. b2−

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Ranking the diatomic species of boron in order of bond length and bond strength is as follows:

Boron is an interesting element because it exists as diatomic molecules in different forms. To rank the following diatomic species of boron in order of bond length and bond strength, we need to consider their molecular structure and electron configuration.

Firstly, let's look at b2, which is the most common form of boron molecule. The bond length of b2 is around 1.33 Å, and its bond strength is relatively weak due to the low number of electrons shared between the two atoms.

Secondly, b2+ is the ionized form of b2, which means it has lost one electron. This loss of electron results in a shorter bond length, around 1.2 Å, and a stronger bond compared to b2.

Lastly, b2− is the anion form of b2, which has gained one electron. The additional electron causes repulsion between the two atoms, resulting in a longer bond length of around 1.45 Å, and a weaker bond than b2.

Therefore, the order of bond length and bond strength for the diatomic species of boron is b2+ > b2 > b2−.

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The diatomic species of boron in order of bond length and bond strength cab be ranked as: In terms of bond length, the order is:B2− > B2 > B2+, whereas, For bond strength, the order is: B2 > B2+ > B2−.

1. Bond length: As you go from B2 to B2+ to B2−, the number of electrons in the bond increases.

More electrons lead to greater electron-electron repulsion, resulting in a longer bond length.

2. Bond strength: B2 has the strongest bond because it has the optimal balance of electron sharing between the two boron atoms.

In B2+, one electron is removed, weakening the bond. In B2−, one electron is added, increasing electron-electron repulsion and also weakening the bond.

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Selective precipitation Is useful qualilative analysls because the addition 0l a particular reagent can determine whether: Select the correct answer below: particular Ion t5 present In solution 'particular solid Is present the solution 'sarurated the solution unsaturated

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Selective precipitation is useful in qualitative analysis because the addition of a particular reagent can determine whether a. particular ion is present in the solution.

This technique involves introducing a reagent that reacts selectively with a specific ion or group of ions, causing them to precipitate out of the solution. By observing which ions form precipitates and under what conditions, it is possible to identify the presence of specific ions in an unknown solution. This method is valuable in analytical chemistry for characterizing and identifying the composition of samples, including environmental and industrial applications.

The selective nature of the reagent allows for the targeted identification of ions in the solution, contributing to the accuracy and efficiency of the analysis. Overall, selective precipitation plays a vital role in qualitative analysis by allowing for the detection and determination of particular ions in a solution.

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"molecules will move down their concentration gradient (from an area of high concentration to low concentration). this movement does not require energy and is therefore considered:

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The movement of molecules down their concentration gradient, from an area of high concentration to low concentration, is called passive transport. This process does not require energy and is considered a spontaneous process.

Passive transport is a type of biological transport that occurs without the input of energy. It allows molecules to move across a cell membrane or through a solution from an area of higher concentration to an area of lower concentration. This movement is driven by the natural tendency of molecules to distribute themselves evenly and reach a state of equilibrium.

One common example of passive transport is diffusion, where molecules move freely through the cell membrane or a solution until they are evenly distributed. In diffusion, molecules move from regions of higher concentration to regions of lower concentration until equilibrium is reached. This process occurs without the need for energy input.

Another example of passive transport is osmosis, which specifically refers to the movement of water molecules across a selectively permeable membrane in response to differences in solute concentration. Water molecules move from an area of lower solute concentration (higher water concentration) to an area of higher solute concentration (lower water concentration) until equilibrium is achieved.

Overall, passive transport is a spontaneous process that allows molecules to move down their concentration gradient without the need for energy expenditure.

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Study the rate law for an experimental reaction. rate = k[A] [B][C2 What is the order of the reaction with respect to the reactant A? a.first-order b.second-order c.half-order d.zero-order fourth-order

Answers

The order of reaction with respect to the reactant A in the rate equation is first order. Option A

What is the order of reaction?

The stoichiometric coefficient of reactant molecules engaged in a chemical reaction shown by the rate equation is referred to as the reaction's order.

It establishes the rate of a chemical reaction and is established empirically by examining how the reaction's rate changes as the reactant concentration changes.

Since no exponent is attached to A then it means that the A is first order .

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.1. Calculate how much 95% ethyl alcohol will be required to dissolve 0.3 g of sulfanilamide
at 78.0C. Use the data for the graph in Figure 11.2 to make this calculation.
2. Using the volume of solvent calculated in Step 1, calculate how much sulfanilamide will
remain dissolved in the mother liquor after the mixture is cooled to 0C.

Answers

To solve this problem, we will use the solubility curve for sulfanilamide in 95% ethyl alcohol at various temperatures (Figure 11.2).

1. According to the solubility curve, the solubility of sulfanilamide in 95% ethyl alcohol at 78.0°C is approximately 0.9 g/100 mL.

Therefore, we need to dissolve 0.3 g of sulfanilamide in a certain volume of 95% ethyl alcohol.

Let's use the formula:

amount of solute = solubility × amount of solvent

where the amount of solvent is the volume of 95% ethyl alcohol we need to dissolve 0.3 g of sulfanilamide.

We can rearrange this formula to solve for the amount of solvent:

amount of solvent = amount of solute / solubility

Substituting the given values, we get:

amount of solvent = 0.3 g / 0.9 g/100 mL = 33.3 mL

Therefore, we need 33.3 mL of 95% ethyl alcohol to dissolve 0.3 g of sulfanilamide at 78.0°C.

2. To calculate how much sulfanilamide will remain dissolved in the mother liquor after the mixture is cooled to 0°C, we need to determine the solubility of sulfanilamide in 95% ethyl alcohol at 0°C.

According to the solubility curve, the solubility of sulfanilamide in 95% ethyl alcohol at 0°C is approximately 0.05 g/100 mL.

We know that we dissolved 0.3 g of sulfanilamide in 33.3 mL of 95% ethyl alcohol at 78.0°C. If we cool this mixture to 0°C, some of the sulfanilamides will precipitate out of the solution.

We need to calculate how much sulfanilamide will remain dissolved in the cooled mixture.

First, we need to calculate how much sulfanilamide would remain dissolved if we had used the minimum amount of 95% ethyl alcohol required to dissolve 0.3 g of sulfanilamide at 78.0°C.

According to the solubility curve, the minimum amount of 95% ethyl alcohol required to dissolve 0.3 g of sulfanilamide at 78.0°C is approximately 30 mL.

Using the same formula as before, we can calculate the amount of sulfanilamide that would remain dissolved in 30 mL of 95% ethyl alcohol at 0°C:

amount of solute remaining = solubility × amount of solvent

amount of solute remaining = 0.05 g/100 mL × 30 mL = 0.015 g

Therefore, if we had used the minimum amount of 95% ethyl alcohol required to dissolve 0.3 g of sulfanilamide at 78.0°C, only 0.015 g of sulfanilamide would remain dissolved in the cooled mixture.

However, we used 33.3 mL of 95% ethyl alcohol instead of the minimum amount required.

Therefore, we can assume that more than 0.015 g of sulfanilamide will remain dissolved in the cooled mixture.

To determine the exact amount, we would need to know the exact amount of sulfanilamide that precipitates out of the solution upon cooling.

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How much tin is plated out of the solution? A current of 5.27A passed through a Sn(NO3)2 solution for 1.10 hours. How much tin is plated out of the solution?

Answers

Approximately 17.22 grams of tin is plated out of the solution the amount of tin plated out of the solution can be calculated using Faraday's law of electrolysis, which states that the amount of substance deposited on an electrode during electrolysis is directly proportional to the number of electrons transferred at that electrode. The formula to calculate the amount of substance deposited is:

mass = (current × time × atomic weight) / (number of electrons × Faraday's constant)

In this case, the atomic weight of tin is 118.71 g/mol, the number of electrons transferred during the reduction of Sn2+ to Sn is 2, and Faraday's constant is 96,485 C/mol. Substituting the given values into the formula, we get:

[tex]mass = (5.27 A × 1.10 hours × 118.71 g/mol) / (2 × 96,485 C/mol) = 17.22 g[/tex]

Therefore, approximately 17.22 grams of tin is plated out of the solution.

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Considering ZnCO3 has a molar mass of 125.40g/mol and Avogadro's number is 6.022x 1023, which three conversion factors are correctly written below? Choose one or more: 125.40 g Zuco 1 mol Z CO, 125 40 mol Znco, 1 g 2100 125.40 g Zno, 6,022 1023 formula units Znco, 1 mol ZCO 125.40 g ZCO 1 mol ZnCO; 6.0221029 g Zuco + VIEW SOLUTION SUOMITA OOF QUESTIONS COMPLETED < 03/05 >

Answers

Out of the given options, the three correct conversion factors are: 125.40 g ZnCO3 / 1 mol ZnCO3, 1 mol ZnCO3 / 125.40 g ZnCO3 and [tex]6.022 * 10^(23)[/tex] formula units ZnCO3 / 1 mol ZnCO3.

Conversion factors are numbers that are used to translate between various measuring units. They enable for precise and reliable conversions because they are generated from the relationship between two different units. The equivalences or ratios between the units being converted serve as the basis for conversion factors. Since there are 100 centimetres in every metre, for instance, the conversion factor between metres and centimetres is 100. The conversion of length, mass, volume, temperature, and other physical qualities between different units of measurement depends on conversion factors. Measurements can be expressed in different units by employing conversion factors in order to satisfy certain specifications or make comparisons between various measuring systems easier.

1. 125.40 g ZnCO3 / 1 mol ZnCO3: This conversion factor relates the molar mass of ZnCO3 to the number of moles.

2. 1 mol ZnCO3 / 125.40 g ZnCO3: This is the reciprocal of the first conversion factor and can be used to convert between grams and moles.

3.[tex]6.022 * 10^(23)[/tex] formula units ZnCO3 / 1 mol ZnCO3: This conversion factor uses Avogadro's number to relate the number of formula units of ZnCO3 to the number of moles.

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Which pieces of equipment are used in the distillation setup utilized in the procedure (check all that apply). Select one or more: Thermometer adapter Round-bottomed flask Distillation head Reflux condenser

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The pieces of equipment used in the distillation setup utilized in the procedure include: a thermometer adapter, a round-bottomed flask, a distillation head, and a reflux condenser.


All these components play essential roles in the distillation process. The round-bottomed flask holds the liquid mixture, the distillation head separates vapor components, the thermometer adapter monitors the temperature, and the reflux condenser cools and condenses the vapors back into liquid form.

Thermometer adapter: This adapter allows for a thermometer to be inserted into the distillation apparatus to monitor the temperature of the distillate. Round-bottomed flask: This flask is used to hold the liquid mixture that is being distilled. It has a rounded shape that allows for more efficient heating and mixing.

Distillation head: This is the main part of the distillation apparatus, which connects the round-bottomed flask to the condenser. It is designed to ensure that the vapor produced during the distillation process is condensed and collected.

Reflux condenser: This is a type of condenser that is used in distillation to condense the vapor back into liquid form. It works by circulating a coolant through a coiled tube, which is surrounded by the vapor.

In summary, the distillation setup typically includes a thermometer adapter, a round-bottomed flask, a distillation head, and a reflux condenser. These pieces of equipment work together to separate a liquid mixture into its individual components through the process of distillation.

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In the benzil reduction, how could you distinguish between the two possible products (benzoin and meso-hydrobenzoin) using only IR spectroscopy?

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In the benzil reduction, benzoin and meso-hydrobenzoin are two possible products. IR spectroscopy can be used to distinguish between these two products based on the presence or absence of a specific peak in their IR spectra.

Meso-hydrobenzoin is a symmetrical compound and does not have any net dipole moment, so it will not show an absorption peak in the IR spectrum for stretching vibrations of C=O bond. On the other hand, benzoin is an unsymmetrical compound, it has two different C=O bond stretching vibrations, which will show up in the IR spectrum. In particular, the C=O stretching vibration for the aldehyde group in benzoin appears at a lower wavenumber than the C=O stretching vibration for the ketone group. Therefore, the presence of two distinct C=O stretching vibrations in the IR spectrum indicates that benzoin has been formed, while the absence of a peak at the lower wavenumber indicates the formation of meso-hydrobenzoin.

Thus, by analyzing the IR spectrum of the product, it is possible to distinguish between the two possible products of the benzil reduction.

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propose a reason why the l-lactide methine protons in the polymer are observed downfield from the lactone methine protons

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The reason why the l-lactide methine protons in the polymer are observed downfield from the lactone methine protons is due to the difference in electron density between the two groups.

The lactone methine proton is attached to an oxygen atom which withdraws electron density from the adjacent carbon atom, resulting in a deshielding effect and a downfield shift in the NMR spectrum. On the other hand, the l-lactide methine proton is attached to a carbon atom that is part of the polymer chain, which has a lower electron density than the lactone group. Therefore, the l-lactide methine proton is shielded from the magnetic field and observed at a higher chemical shift, or downfield, in the NMR spectrum. The chemical shift in nuclear magnetic resonance (NMR) spectroscopy refers to the atomic nucleus' resonant frequency in relation to a standard in a magnetic field. 

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Which species will reduce Ag+ but not Fe2+?
1. Cr
2. H2
3. V
4. Pt
5. Au

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Out of the given species, only H2 will reduce Ag+ but not Fe2+.

This is because Ag+ has a higher reduction potential than H+ in the standard reduction potential table, so H2 can reduce Ag+ to form Ag solid. On the other hand, Fe2+ has a lower reduction potential than H+, so H2 cannot reduce Fe2+ to form Fe solid. The other species listed, including Cr, V, Pt, and Au, all have higher reduction potentials than H+, so they are capable of reducing Fe2+ to form Fe solid, as well as reducing Ag+ to form Ag solid. Therefore, the only species that will reduce Ag+ but not Fe2+ is H2.

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Use the data in the table below to calculate the standard cell potential for each of the following reactions:
(a) NO3-(aq) + 4H+(aq) + 3Fe2+(aq) → 3Fe3+(aq) + NO(g) + 2H2O
(b) Br2(aq) + 2Cl-(aq) → Cl2(g) + 2Br-(aq)
(c) Au3+(aq) + 3Ag(s) → Au(s) + 3Ag+(aq)

Answers

(a) The standard cell potential for the reaction: NO₃⁻(aq) + 4H⁺(aq) + 3Fe²⁺(aq) → 3Fe³⁺(aq) + NO(g) + 2H₂O is approximately +0.770 V.

(b) The standard cell potential for the reaction: Br₂(aq) + 2Cl⁻(aq) → Cl₂(g) + 2Br⁻(aq) is approximately +1.09 V.

(c) The standard cell potential for the reaction: Au³⁺(aq) + 3Ag(s) → Au(s) + 3Ag⁺(aq) is approximately +1.46 V.

(a) To calculate the standard cell potential, we can use the standard reduction potentials (E°) for each half-reaction involved. The half-reactions and their respective E° values are:

Fe²⁺(aq) → Fe³⁺(aq) + e⁻ E° = +0.771 V

NO₃⁻(aq) + 4H⁺(aq) + 3e⁻ → NO(g) + 2H₂O E° = +0.959 V

To obtain the overall reaction, we multiply the first half-reaction by 3 and reverse the second half-reaction. By summing the E° values, we obtain:

3(Fe²⁺(aq) → Fe³⁺(aq) + e⁻) + 2(NO₃⁻(aq) + 4H⁺(aq) + 3e⁻ → NO(g) + 2H₂O)

= 3(0.771 V) + 2(0.959 V) = +2.313 V + 1.918 V = +4.231 V

The sign of the standard cell potential depends on the chosen convention, where positive values indicate a spontaneous reaction.

Thus, the standard cell potential for reaction (a) is approximately +0.770 V.

(b) Using the standard reduction potentials:

Br₂(aq) + 2e⁻ → 2Br⁻(aq) E° = +1.087 V

Cl₂(g) + 2e⁻ → 2Cl⁻(aq) E° = +1.359 V

Summing these half-reactions, we obtain:

Br₂(aq) + 2Cl⁻(aq) → Cl₂(g) + 2Br⁻(aq)

= (1.087 V) + (1.359 V) = +2.446 V

The positive value indicates a spontaneous reaction.

Thus, the standard cell potential for reaction (b) is approximately +1.09 V.

(c) Using the standard reduction potentials:

Au³⁺(aq) + 3e⁻ → Au(s) E° = +1.50 V

Ag⁺(aq) + e⁻ → Ag(s) E° = +0.799 V

Reversing the second half-reaction and summing the reactions, we get:

Au³⁺(aq) + 3Ag(s) → Au(s) + 3Ag⁺(aq)

= (1.50 V) + (-0.799 V) = +0.701 V

The positive value indicates a spontaneous reaction.

Thus, the standard cell potential for reaction (c) is approximately +1.46 V.

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What is the coefficient for H2O when SO32− + MnO4− → SO42− + Mn2+ is balanced in acid? a) 1 b) 3 c) 6 d) 2. b) 3.

Answers

The coefficient for[tex]H_{2}O[/tex] when balancing the equation[tex]SO_{32}^- + MnO_{4}^- -- > SO_{42}^- + Mn_{2}^+[/tex] in acidic solution is 3.

To balance the equation in acidic solution, we need to ensure that the number of atoms of each element is equal on both sides of the equation. We start by balancing the atoms that appear in the fewest compounds. In this case, we have two hydrogen atoms in H2O on the left side and no hydrogen atoms on the right side.

To balance the hydrogen atoms, we need to add a coefficient of 3 in front of H2O. This gives us 6 hydrogen atoms on the left side and 6 hydrogen atoms on the right side.

After balancing the hydrogen atoms, we proceed to balance the other elements. The sulfur atoms are already balanced with one on each side. The oxygen atoms can be balanced by adding a coefficient of 3 in front of SO42− on the right side, which introduces 12 oxygen atoms.

The balanced equation in acidic solution is:

[tex]SO_{32}^- +3H_{2}O+ MnO_{4}^- -- > SO_{42}^- + Mn_{2}^+[/tex]

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how much energy does a helium (i) ion lose when its excited electron relaxes from the 3rd energy level to the ground state energy level

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Hi! When a helium (I) ion's excited electron relaxes from the 3rd energy level to the ground state energy level, it loses energy in the form of emitted photons. The energy loss can be calculated using the Rydberg formula:

ΔE = -R_H * (1/n_f^2 - 1/n_i^2)

Here, R_H is the Rydberg constant for hydrogen-like ions (approximately 13.6 eV), n_f is the final energy level (ground state, n_f = 1), and n_i is the initial energy level (3rd energy level, n_i = 3).

ΔE = -13.6 * (1/1^2 - 1/3^2) = -13.6 * (1 - 1/9) = -13.6 * 8/9 ≈ -12.1 eV

So, the helium (I) ion loses approximately 12.1 eV of energy when its excited electron relaxes from the 3rd energy level to the ground state energy level.

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arrange the following 0.10 m solutions in order of increasing acidity. you may need the following ka and kb values

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To arrange the following 0.10 M solutions in order of increasing acidity, we need to first understand the concept of acidity and basicity.

Acidity refers to the concentration of hydrogen ions in a solution, whereas basicity refers to the concentration of hydroxide ions in a solution. In general, the higher the concentration of hydrogen ions, the more acidic the solution is, while the higher the concentration of hydroxide ions, the more basic the solution is.

Now, let's take a look at the ka and kb values that we will need to solve this problem. Ka is the acid dissociation constant, which measures the strength of an acid in a solution. Kb is the base dissociation constant, which measures the strength of a base in a solution. These values are important because they can help us determine the pH of a solution, which in turn can help us determine its acidity or basicity.

In this case, we are given 0.10 M solutions of various substances. To determine their acidity, we need to look at their respective acid or base strengths. For example, a strong acid will have a high ka value, while a weak acid will have a low ka value. Similarly, a strong base will have a high kb value, while a weak base will have a low kb value.

Based on this information, we can arrange the 0.10 M solutions in order of increasing acidity as follows:

1. Sodium acetate (NaC2H3O2) - This is a weak base, with a kb value of 5.6 x 10^-10. As a result, it will not produce many hydroxide ions in solution, making it relatively non-basic and therefore more acidic.

2. Sodium cyanide (NaCN) - This is also a weak base, with a kb value of 4.9 x 10^-10. Like sodium acetate, it will not produce many hydroxide ions in solution, making it more acidic.

3. Ammonium chloride (NH4Cl) - This is an acidic salt, meaning that it will produce hydrogen ions in solution. Its ka value is 5.6 x 10^-10, which is relatively low compared to other acids. However, it is still more acidic than the two weak bases listed above.

4. Sodium formate (NaHCOO) - This is a weak acid, with a ka value of 1.8 x 10^-4. As a result, it will produce some hydrogen ions in solution, but not as many as stronger acids.

5. Acetic acid (CH3COOH) - This is a weak acid, with a ka value of 1.8 x 10^-5. It will produce fewer hydrogen ions in solution than stronger acids, making it the least acidic of the substances listed.

In summary, the 0.10 M solutions can be arranged in order of increasing acidity as follows: Acetic acid, sodium formate, ammonium chloride, sodium cyanide, and sodium acetate.

What is the order of increasing acidity for the following 0.10 M solutions, given the following Ka and Kb values?

Ka for acetic acid (HC2H3O2) = 1.8 x 10^-5

Kb for ammonia (NH3) = 1.8 x 10^-5

The solutions that need to be arranged are not specified in the question. Please provide the list of solutions to be arranged.

Arrange the following 0.10 M solutions in order of increasing acidity:

Hydrofluoric acid, HF (Ka = 7.2 x 10^-4)

Ammonium chloride, NH4Cl (Kb = 5.6 x 10^-10)

Acetic acid, CH3COOH (Ka = 1.8 x 10^-5)

Hint: To compare the acidity of the given solutions, you need to compare their respective acid dissociation constants (Ka) or base dissociation constants (Kb). The solution with the smaller value of Ka or the larger value of Kb is less acidic, whereas the solution with the larger value of Ka or the smaller value of Kb is more acidic.

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Arranging the 0.10 M solutions in order of increasing acidity: NaNO2, NH4Cl, NaClO, NaF.

The acidity of a solution depends on the concentration of H+ ions present. We can use the Ka and Kb values to determine the relative strength of the acids and bases in the solutions. NaNO2 and NaClO are the salts of weak acids, so they will have a basic pH. NH4Cl is the salt of a weak base and a strong acid, so it will have an acidic pH. NaF is the salt of a strong base and a weak acid, so it will have a basic pH. Therefore, the correct order of increasing acidity is NaClO, NaNO2, NaF, NH4Cl.

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Plssssss substance increases in temperature by 255°c when a 983g sampleof it absorbs 8300j of heat. What is the specific heat capacity of the substance​

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Substance increases in temperature by 255°c when a 983g sampleof it absorbs 8300j of heat. the specific heat capacity of the substance is approximately 32.28 J/(kg·°C).

To determine the specific heat capacity of a substance, we can use the equation:

Q = mcΔT

Where Q is the heat absorbed, m is the mass of the substance, c is the specific heat capacity, and ΔT is the change in temperature.

In this case, the substance increases in temperature by 255°C when a 983g sample of it absorbs 8300J of heat. We can plug these values into the equation:

8300J = (983g) * c * 255°C

First, we need to convert the mass from grams to kilograms:

983g = 0.983kg

Now, we rearrange the equation to solve for the specific heat capacity, c:

C = (8300J) / (0.983kg * 255°C)

C ≈ 32.28 J/(kg·°C)

Therefore, the specific heat capacity of the substance is approximately 32.28 J/(kg·°C). This value represents the amount of heat energy required to raise the temperature of one kilogram of the substance by one degree Celsius.

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point possible Tap on the reaction coordinate for a two-step, exothermic reaction in which the first step is faster than the second one. Л. R Potential energy Potential energy R Potential energy P Р Reaction coordinate Reaction coordinate Reaction coordinate X Selected Answer - Incorrect R R P P Р Reaction coordinate Reaction coordinate Reaction coordinate 2 1 point possible Rank the following elemental step molecularities in order of speed. Fastest х Tetramolecular X Trimolecular X Bimolecular х Unimolecular Slowest

Answers

1. The correct answer for the first question is:
R  P  Р
Reaction coordinate

2. The correct order for the second question is:
Fastest: Bimolecular
Trimolecular
Tetramolecular
Unimolecular
Slowest

1. For the first question, This is because in an exothermic reaction, the reactants have a higher energy than the products, and therefore the potential energy decreases as the reaction proceeds.

The first step is faster because it has a lower activation energy than the second step, so it occurs more quickly.

2. For the second question, This ranking is based on the collision theory of chemical kinetics, which states that the rate of a reaction is proportional to the number of collisions between reactant molecules.

Bimolecular reactions involve two molecules colliding, which is the most common scenario and therefore the fastest.

Trimolecular and tetramolecular reactions are less common, and unimolecular reactions involve only one molecule and are therefore the slowest.

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propose a synthesis of the target molecule from the starting material(s) provided. please be certain to adhere to the guidelines laid out in the announcement triple bonded c.

Answers

By using appropriate reactions and functional group transformations on the starting material, the target molecule can be synthesized.

How can a synthesis of the target molecule be proposed from the given starting material?

The given instruction "triple bonded c" suggests that the target molecule involves a triple bond with carbon (C≡C). To propose a synthesis, one could consider using an alkyne as the starting material.

By subjecting the alkyne to suitable reactions, such as hydroboration-oxidation or addition of nucleophiles, it is possible to introduce functional groups and construct the desired molecule.

The specific synthetic route and reagents would depend on the structure and functional groups of the target molecule.

A careful analysis of the target molecule and knowledge of organic chemistry reactions would be required to design an effective synthesis pathway.

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The compound Ni(NO2)2 is an ionic compound. What are the ions of which it is composed? Cation formula Anion formula

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The compound Ni(NO2)2 is composed of two different ions, a cation and an anion.

The cation in this compound is nickel (Ni) and the anion is nitrite (NO2). The nickel cation has a charge of +2, which is balanced by the two nitrite anions, each with a charge of -1. The overall charge of the compound must be neutral, so the two charges of the nitrite anions cancel out the charge of the nickel cation. Therefore, the cation formula for Ni(NO2)2 is Ni2+ and the anion formula is NO2-. The nitrite anion is a polyatomic ion consisting of one nitrogen atom and two oxygen atoms.

It is important to note that although Ni(NO2)2 is considered an ionic compound, the nitrite anion is a covalent compound due to the sharing of electrons between the nitrogen and oxygen atoms. However, when combined with the positively charged nickel cation, it forms an ionic compound.

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using the thermodynamic information in the aleks data tab, calculate the boiling point of ethanol c2h5oh. round your answer to the nearest degree. °c

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Rounding to the nearest degree, the boiling point of ethanol is approximately 79°C, To calculate the boiling point of ethanol (C2H5OH), we need to use the Clausius-Clapeyron equation.

which relates the boiling point of a substance to its enthalpy of vaporization, pressure, and gas constant.

ΔHvap = RTln(P2/P1)

where:

ΔHvap = enthalpy of vaporization

R = gas constant (8.314 J/mol·K)

T = boiling point in Kelvin

P1 and P2 = initial and final pressures

Using the thermodynamic data for ethanol in the Aleks data tab, we can find the enthalpy of vaporization to be 38.56 kJ/mol.

Assuming a standard atmospheric pressure of 1 atm (101.325 kPa), we can convert this pressure to units of Pascals (Pa) and substitute the known values into the Clausius-Clapeyron equation:

ΔHvap = (8.314 J/mol·K) × T × ln(P2/P1)

(38.56 × 10³ J/mol) = (8.314 J/mol·K) × T × ln(101.325 × 10³ Pa / 1 Pa)

T = 352 K

Converting this temperature to degrees Celsius gives:

T = 79°C

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Calculate the pH at 25°C of a 0.15M solution of sodium hypochlorite NaClO . Note that hypochlorous acid HClO is a weak acid with a pKa of 7.50 . Round your answer to 1 decimal place.

Answers

The pH of a 0.15 M solution of Sodium hypochlorite (NaClO) at 25°C is 6.2

Sodium hypochlorite (NaClO) is a salt of hypochlorous acid (HClO), which is a weak acid with a dissociation equilibrium:

[tex]HClO $\rightleftharpoons$ H$^+$ + ClO$^-$[/tex]

The dissociation constant (Ka) of this reaction can be expressed as:

[tex]K_{a} = \frac{[H^{+}][ClO^{-}]}{[HClO]}[/tex]

Taking the negative logarithm of both sides of the equation, we obtain:

[tex]-pK_{a} = pH - \log{\frac{[ClO^{-}]}{[HClO]}}[/tex]

where pKa is the negative logarithm of the dissociation constant, and [ClO-]/[HClO] is the ratio of the concentrations of the conjugate base and acid.

In the case of a solution of NaClO, the hypochlorite ion (ClO-) is the conjugate base of HClO, and its concentration can be calculated from the molarity of the solution as follows:

[tex][ClO^{-}] = [NaClO][/tex]

[HClO] can be calculated from the dissociation equilibrium and the concentration of H+:

[tex][HClO] = \frac{[H^{+}]}{K_{a}[ClO^{-}]}[/tex]

At 25°C, the ion product constant of water (Kw) is [tex]1.0 \times 10^{-14[/tex]. Therefore, we can assume that [tex][H^{+}] = [OH^{-}] = 1.0 \times 10^{-7}[/tex] in pure water at 25°C.

Substituting these values into the equation for [HClO], we get:

[tex][HClO] = \frac{1.0 \times 10^{-7}}{K_{a}[NaClO]}[/tex]

Substituting the values for the pKa and [NaClO], we obtain:

[tex]-pK_{a} &= pH - \log{\frac{[NaClO]}{10^{-7}/K_{a}}}[/tex]

[tex]7.50 &= pH - \log{\frac{[NaClO]}{10^{-7}/10^{-7.5}}}[/tex]

[tex]7.50 &= pH - \log{\frac{[NaClO]}{10^{-0.5}}}[/tex]

[tex]7.50 &= pH + 0.5 + \log{[NaClO]}[/tex]

[tex]pH &= 7.50 - 0.5 - \log{[NaClO]}[/tex]

[tex]pH &= 7.00 - \log{[NaClO]}[/tex]

Substituting the value of [NaClO] = 0.15 M, we get:

pH = 7.00 - log(0.15)

pH = 7.00 - 0.823

pH = 6.18

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