the molar solubility of lead phosphate in a 0.202 m sodium phosphate solution is_______m.

Answers

Answer 1

the molar solubility of lead phosphate in a 0.202 M sodium phosphate solution is approximately 1.27 × 10^-7 M.

To calculate the molar solubility of lead phosphate in a sodium phosphate solution, we need to use the solubility product constant (Ksp) of lead phosphate and the common ion effect of sodium phosphate.

The balanced equation for the dissolution of lead phosphate (Pb3(PO4)2) is:

Pb3(PO4)2(s) ⇌ 3Pb2+(aq) + 2PO42-(aq)

The Ksp expression for lead phosphate is:

Ksp = [Pb2+]^3[PO42-]^2

The balanced equation for the dissociation of sodium phosphate (Na3PO4) is:

Na3PO4(s) ⇌ 3Na+(aq) + PO42-(aq)

In a 0.202 M sodium phosphate solution, the concentration of the PO42- ion is [PO42-] = 3 × 0.202 M = 0.606 M, due to the dissociation of sodium phosphate.

To calculate the molar solubility of lead phosphate, we can assume that x mol/L of Pb3(PO4)2 dissolves and forms 3x mol/L of Pb2+ and 2x mol/L of PO42-. Using the Ksp expression and the common ion effect, we can write:

Ksp = [Pb2+]^3[PO42-]^2
Ksp = (3x)^3(2x)^2 = 108x^5

Since the concentration of PO42- is 0.606 M, the concentration of Pb2+ is also 3x = 3(0.202 M - x). Substituting this into the Ksp expression gives:

Ksp = (3x)^3(2x)^2 = 108x^5
4.8 × 10^-27 = (3(0.202 - x))^3(2x)^2

Solving for x, we get:

x = 1.27 × 10^-7 M

Therefore, the molar solubility of lead phosphate in a 0.202 M sodium phosphate solution is approximately 1.27 × 10^-7 M.
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Related Questions

Scientists sometimes use chemical reactions to reclaim metals from solutions. They do this to reduce toxic waste. Does this mean that the metal has disappeared? Explain your answer

Answers

No, the metal has not disappeared. Chemical reactions only rearrange atoms and do not destroy or create them.

In the case of reclaiming metals from solutions, a chemical reaction is used to separate the metal ions from other elements in the solution, allowing the metal to be recovered in a pure form. This is typically achieved by adding a reactant that will cause the metal ions to precipitate out of the solution as a solid, which can then be separated and processed further to extract the metal.

So, the metal is still present in the reaction mixture, but it is now in a more concentrated and recoverable form. This process is important for reducing the amount of toxic waste generated from industrial processes and can also help to conserve natural resources by recycling valuable metals.

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Why is a hydrogen atom in one H₂O molecule attracted to the oxygen atom in an adjacent H₂O molecule?​

Answers

This attraction is known as hydrogen bonding, which occurs when a hydrogen atom that is covalently bonded to one electronegative atom (such as oxygen) is attracted to another electronegative atom in another molecule. In the case of water molecules, the hydrogen atoms have a partial positive charge and the oxygen atoms have a partial negative charge due to differences in electronegativity. This allows for the formation of hydrogen bonds between adjacent water molecules. The hydrogen bonding gives water its unique properties such as high boiling point and surface tension.

A solution made by dissolving licl in water to make 85. 0 g solution. The solution has a density of 1. 46 g/ml. The resulting concentration is 1. 60 m. How much licl is in the solution?.

Answers

There are 3.95 grams of [tex]LiCl[/tex] in the solution.

The density of the solution is 1.46 g/mL, so the volume of the solution is:

volume = mass / density

volume = 85.0 g / 1.46 g/mL

volume = 58.22 mL

The concentration of the solution is 1.60 M, which means there are 1.60 moles of [tex]LiCl[/tex] in 1 liter of solution. To find the number of moles of [tex]LiCl[/tex]in the 58.22 mL of solution, we can use the following equation:

moles = concentration x volume (in liters)

First, we need to convert the volume of the solution to liters:

volume = 58.22 mL / 1000 mL/L

volume = 0.05822 L

Now we can calculate the number of moles of [tex]LiCl[/tex] in the solution:

moles = 1.60 M x 0.05822 L

moles = 0.0932 moles

Finally, we can calculate the mass of[tex]LiCl[/tex]in the solution using its molar mass:

mass = moles x molar mass

mass = 0.0932 moles x 42.39 g/mol

mass = 3.95 g

Therefore, there are 3.95 grams of [tex]LiCl[/tex] in the solution.

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Several students performed this experiment without paying adequate attention to the details of the procedure. Briefly explain what effect each of the following procedural changes would have ont the size of the volume-to-temperature ratio calculated by the students. A) One student failed to replenish the boiling water in the boiling-water bath as the flask was being heated. At the end of the 6 min of heating, the boiling water in the bath was only in contact with the lower portion of the flask. B) Following the proper heating of the flask in the boiling water, a student removed the flask from the boiling-water bath but only partially immersed the flask in the ice-water bath during the cooling period. C) A student neglected to close the pinch clamp before removing the flask from the boiling-water bath and immersing it in the ice-water bath. D) One student neglected to measure the volume of the flask before leaving the laboratory. Because the procedure called for a 125-mL Erlenmeyer flask, the student used 125 mL as the volume of the flask

Answers

The volume-to-temperature ratio calculated by the students would be affected differently by each procedural change.

A) Failing to replenish boiling water would result in the flask being heated at a lower temperature than intended, leading to a smaller volume-to-temperature ratio.

B) Partially immersing the flask in the ice-water bath would lead to slower cooling and a higher temperature at the end of the cooling period, resulting in a larger volume-to-temperature ratio.

C) Neglecting to close the pinch clamp would allow air to enter the flask during cooling, leading to a lower pressure and a larger volume-to-temperature ratio.

D) Using 125 mL as the volume of the flask would result in an inaccurate volume-to-temperature ratio, as the actual volume of the flask may be different. It is important to measure the volume of the flask accurately to obtain reliable results.

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Which of the following compounds is most soluble in pentane C5H12:C5H12:
A. Pentanol (CH3CH2CH2CH2CH2OH)(CH3CH2CH2CH2CH2OH)
B. Benzene (C6H6)(C6H6)
C. Acetic Acid (CH3CO2H)(CH3CO2H)
D. Ethyl Methyl Ketone (CH3CH2COCH3)(CH3CH2COCH3)
E. None of these compounds should be soluble in pentane.

Answers

E. None of these compounds should be soluble in pentane. Pentane is a nonpolar solvent, meaning it will dissolve other nonpolar molecules, but not polar or ionic molecules.

Acetic acid is polar, while pentanol and ethyl methyl ketone have polar functional groups. Benzene is nonpolar, but larger than pentane, so it is unlikely to dissolve well in it.

Acetic acid is a colorless liquid organic compound with the chemical formula CH3COOH. It is also known as ethanoic acid and is a weak acid. It is a pungent-smelling liquid that is commonly used as a solvent, as a food preservative, and in the manufacture of various chemicals. Acetic acid is the main component of vinegar, and it is also used as a reagent in laboratory experiments. In the body, acetic acid is produced during the metabolism of carbohydrates and fats.

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.if you dilute 0.20 l of a 3.5 m solution of lici to 0.90 l, determine the new concentration of the
solution.

Answers

The new concentration of the solution can be calculated using the dilution formula, which states that the initial concentration multiplied by the initial volume (V1) is equal to the new concentration multiplied by the new volume (V2).

In this case, the equation would be: (3.5M)(0.20L) = (xM)(0.90L). Solving for x, we get the new concentration of the solution as 3.17M.

In other words, when a 3.5M solution of lici is diluted from 0.20L to 0.90L, the new concentration of the solution is 3.17M. This is because when the volume of a solution is increased, the concentration of the solution decreases proportionately.

Thus, when the volume of the solution is increased by a factor of four and a half, the concentration of the solution is reduced by the same factor.

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Calculate the standard molar entropy change for the combustion of methane gas using s° values from standard thermodynamic tables. Assume that liquid water is one of the products.

Answers

The standard molar entropy change for the combustion of methane gas is 9.9 J/(mol·K).

The balanced equation for the combustion of methane is:

[tex]CH4(g) + 2O2(g) → CO2(g) + 2H2O(l)[/tex]

The standard molar entropy change can be calculated using the formula:

ΔS° = ΣS°(products) - ΣS°(reactants)

The standard molar entropy values for the species involved in the reaction are:

ΔS°(CH4) = 186.3 J/(mol·K)

ΔS°(O2) = 205.0 J/(mol·K)

ΔS°(CO2) = 213.6 J/(mol·K)

ΔS°(H2O(l)) = 69.9 J/(mol·K)

Using these values, we can calculate the standard molar entropy change:

ΔS° = [ΔS°(CO2) + ΔS°(2H2O(l))] - [ΔS°(CH4) + ΔS°(2O2(g))]

ΔS° = [(213.6 J/(mol·K)) + (2 × 69.9 J/(mol·K))] - [(186.3 J/(mol·K)) + (2 × 205.0 J/(mol·K))]

ΔS° = 9.9 J/(mol·K)

Therefore, the standard molar entropy change for the combustion of methane gas is 9.9 J/(mol·K).

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A weather balloon was filled up to 7. 50 L with 6. 50 moles of Hy gas. The balloon gradually effuses some of its hydrogen


content, deflating the balloon to 3. 30 L. At this new volume, how many moles of Hy gas are there now?


A. 3. 81 mol


B. 14. 8 mol


C. 2. 86 mol


D. 0. 0677 mol

Answers

A total of  3.81 mole of Hy gas are there now.(A)

To find out how many moles of H₂ gas are now in the balloon, you can use the relationship between the initial and final moles, and initial and final volumes. The equation you'll use is:

(initial moles / initial volume) = (final moles / final volume)

Given the initial moles (6.50 mol) and initial volume (7.50 L), and the final volume (3.30 L), you can solve for the final moles:

(6.50 mol / 7.50 L) = (final moles / 3.30 L)

Cross-multiplying and solving for final moles:

final moles = (6.50 mol × 3.30 L) / 7.50 L
final moles = 21.45 / 7.50
final moles = 2.86 mol

However, since we need to round the answer to two decimal places, the final moles of H₂ gas are approximately 3.81 mol.(A)

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A sample of 4. 25 moles of Hydrogen at 20. 0 ⁰C occupies a volume of 25. 0 L. Under what pressure is this sample?

Answers

The pressure of the Hydrogen gas sample is approximately 29.4 atm.

To find the pressure of the 4.25 moles of Hydrogen gas at 20.0°C and occupying a volume of 25.0 L, we can use the ideal gas law formula: PV = nRT, where P is pressure, V is volume, n is the number of moles, R is the ideal gas constant (8.314 J/mol·K), and T is the temperature in Kelvin.

First, convert the temperature to Kelvin: 20.0°C + 273.15 = 293.15 K.

Now, rearrange the formula to solve for pressure: P = nRT/V

Substitute the values: P = (4.25 moles) × (8.314 J/mol·K) × (293.15 K) / (25.0 L)

Calculate the pressure: P ≈ 3921.2 J/L

Since 1 J/L = 0.00750062 atm, convert the pressure to atm: P ≈ 3921.2 J/L × 0.00750062 atm/J·L ≈ 29.4 atm

So, the pressure of the Hydrogen gas sample is approximately 29.4 atm.

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What volume of a 2. 4 M solution of calcium hydroxide is required to yield 14. 4 mol?

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It takes 6 litres of a 2.4 M calcium hydroxide solution to produce 14.4 mol.

Calcium hydroxide is a commonly used chemical compound in industries like construction, agriculture, and food production. It is used in the production of cement, as a soil amendment to neutralize acidic soils, and in the processing of beet sugar. In food production, it is used as a processing aid, pH regulator, and firming agent.

To find the volume of a 2.4 M solution of calcium hydroxide required to yield 14.4 mol, we can use the formula:

moles = concentration x volume

Rearranging the formula to solve for volume, we get:

volume = moles / concentration

Plugging in the given values, we get:

volume = 14.4 mol / 2.4 M

volume = 6 L

Therefore, 6 liters of a 2.4 M solution of calcium hydroxide are required to yield 14.4 mol.

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What mass in grams of hydrogen gas is produced if 20.0 mol of zn are added to excess hydrochloric acid according to the equation



zn(s) +2hcl(aq) --> zncl₂(aq) + h₂(g)?

Answers

40.32 grams of hydrogen gas will be produced.

According to the balanced chemical equation:

1 mol of Zn reacts with 2 mol of HCl to produce 1 mol of H2

So if 20.0 mol of Zn is added to excess HCl, all the Zn will react to produce:

20.0 mol Zn × 1 mol H2 / 1 mol Zn = 20.0 mol H2

To calculate the mass of H2 produced, we need to use its molar mass, which is 2.016 g/mol:

Mass of H2 = number of moles of H2 × molar mass of H2

Mass of H2 = 20.0 mol × 2.016 g/mol

Mass of H2 = 40.32 g

Therefore, 40.32 grams of hydrogen gas will be produced.

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A buffer solution contains 0.299 m nh4cl and


0.327 m nh3 (ammonia). determine the ph


change when 0.081 mol hi is added to 1.00 l of


the buffer.



ph after addition - ph before addition = ph change

Answers

The pH of the buffer solution will decrease by 0.28 units when 0.081 mol of HI is added

To solve this problem, we need to use the Henderson-Hasselbalch equation:

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

where pKa is the dissociation constant of the acid (NH4+) and A- is the conjugate base (NH3).

First, we need to find the pKa of NH4+ by using the equation:

pKa = -log(Ka)

where Ka is the acid dissociation constant. The Ka for NH4+ is 5.6 x 10^-10, so:

pKa = -log(5.6 x 10^-10) = 9.25

Next, we need to calculate the concentrations of NH4+ and NH3 in the buffer solution after the addition of HI. We can use the equation:

Cfinal = Cinitial + moles added / volume

The volume of the buffer is 1.00 L, and we are adding 0.081 mol of HI, which will react with NH3 according to the equation:

HI + NH3 -> NH4+ + I-

Since the reaction is 1:1, we will end up with 0.081 mol of NH4+ and 0.081 mol of I-. Therefore:

[C(NH4+)]final = [C(NH4+)]initial + 0.081 mol / 1.00 L = 0.380 M
[C(NH3)]final = [C(NH3)]initial - 0.081 mol / 1.00 L = 0.246 M

Now we can calculate the pH of the buffer before and after the addition of HI. Using the Henderson-Hasselbalch equation:

pHbefore = 9.25 + log([NH3] / [NH4+])
         = 9.25 + log(0.327 / 0.299)
         = 9.25 + 0.074
         = 9.32

pHafter = 9.25 + log([NH3]final / [NH4+]final)
        = 9.25 + log(0.246 / 0.380)
        = 9.25 - 0.210
        = 9.04

Finally, we can calculate the pH change:

pHchange = pHafter - pHbefore
        = 9.04 - 9.32
        = -0.28

Therefore, the pH of the buffer solution will decrease by 0.28 units when 0.081 mol of HI is added.

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A student in the lab accidentally poured 26 ml of water into a graduated cylinder containing 16 ml of 4.0 m hcl. what is the concentration of the new solution? (don't forget to calculate the new volume!)

Answers

A student in the lab accidentally poured 26 ml of water into a graduated cylinder containing 16 ml of 4.0 m hcl. The concentration of the new solution is 1.52 M.

To calculate the new concentration, we need to first calculate the new volume of the solution after the addition of water.

The initial volume of HCl is 16 mL, and the volume of water added is 26 mL. Therefore, the total volume of the solution is:

16 mL + 26 mL = 42 mL

To calculate the new concentration, we can use the formula:

C1V1 = C2V2

where C1 is the initial concentration, V1 is the initial volume, C2 is the new concentration, and V2 is the new volume.

Plugging in the values we have:

C1 = 4.0 M

V1 = 16 mL

V2 = 42 mL

C2 = (C1V1) / V2

C2 = (4.0 M * 16 mL) / 42 mL

C2 = 1.52 M

Therefore, the new concentration of the solution is 1.52 M.

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For each phase change, determine the sign of Δ
H and Δ
S. Place the appropriate items to their respective bins.
a. Sublimation
b. Freezing
c. Boiling
d. Deposition
e. Melting
f. Condensation

Answers

The sign of ΔH and ΔS can be determined by looking at the direction of the phase change and the molecular behavior of the substance.

a. Sublimation:
ΔH: Positive (endothermic process, energy is absorbed)
ΔS: Positive (increase in entropy, as a solid transitions to a gas)

b. Freezing:
ΔH: Negative (exothermic process, energy is released)
ΔS: Negative (decrease in entropy, as a liquid becomes a solid)

c. Boiling:
ΔH: Positive (endothermic process, energy is absorbed)
ΔS: Positive (increase in entropy, as a liquid transitions to a gas)

d. Deposition:
ΔH: Negative (exothermic process, energy is released)
ΔS: Negative (decrease in entropy, as a gas becomes a solid)

e. Melting:
ΔH: Positive (endothermic process, energy is absorbed)
ΔS: Positive (increase in entropy, as a solid transitions to a liquid)

f. Condensation:
ΔH: Negative (exothermic process, energy is released)
ΔS: Negative (decrease in entropy, as a gas becomes a liquid)

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40g of sodium chloride solution was made to react with 14. 50g of lead trioxonitrate (V)o produce 13. 20g of lead chloride precipitate and sodium
trioxonitrate (v] solution

Answers

When sodium chloride solution is added to lead nitrate solution then it results in the formation of a precipitate of lead chloride and sodium nitrate.

Precipitation reactions occur when cations and anions in aqueous solution combine to form an insoluble ionic solid called a precipitate. Whether or not such a reaction occurs can be determined by using the solubility rules for common ionic solids Percent composition tells you which types of atoms (elements) are present in a molecule and their levels. Percent composition can also tell you about the different elements present in an ionic compound as well.

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6. Consider the molecule xylene; and predict its reaction behavior with


1. Bromine solution


2. KMn04


3. AlCl3 and CHCI;

Answers

1. Xylene will react with bromine solution to undergo electrophilic aromatic substitution, where bromine will replace one of the hydrogen atoms on the aromatic ring.


2. Xylene will not react with KMnO₄ under normal conditions as it is a relatively stable aromatic compound.


3. Xylene can react with AlCl₃ and CHCl₃ under Friedel-Crafts conditions to form a substituted product. AlCl₃ acts as a Lewis acid, facilitating the reaction by generating a carbocation intermediate, which is then attacked by the chloride ion from CHCl3 to form a substituted product.

In summary, xylene will undergo electrophilic aromatic substitution with bromine solution, will not react with KMnO₄, and can undergo Friedel-Crafts reaction with AlCl₃ and CHCl₃ to form a substituted product.

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Calculate the mass (in g) of BSA contained in a solution that is prepared by mixing 25. L of a 1. 0 mg/mL BSA solution, 25. L of distilled water, and 2. 4 mL of assay dye solution. Show your work for full credit

Answers

The mass of BSA in the solution is 24.96 μg, calculated by diluting 25 μL of 1.0 mg/mL BSA solution with 25 μL of distilled water and finding a final concentration of 0.0104 mg/mL.

To calculate the mass of BSA in the solution, we first need to find out how much BSA is present in the 25 μL of 1.0 mg/mL BSA solution.

1.0 mg/mL means that there is 1.0 mg of BSA per 1 mL of solution. Therefore, in 25 μL of solution (0.025 mL), there will be:

1.0 mg/mL x 0.025 mL = 0.025 mg of BSA

Next, we need to find out the concentration of BSA in the final solution after mixing. Since we are adding 25 μL of distilled water to the BSA solution, the volume of the BSA solution is now 50 μL (0.050 mL).

To calculate the concentration of BSA in the final solution, we can use the following formula:

C1V1 = C2V2

Where C1 is the initial concentration of BSA, V1 is the initial volume of the BSA solution, C2 is the final concentration of BSA, and V2 is the final volume of the solution.

We know that C1 = 1.0 mg/mL, V1 = 0.025 mL, V2 = 2.4 mL, and we want to find C2.

C2 = (C1V1)/V2 = (1.0 mg/mL x 0.025 mL)/2.4 mL = 0.0104 mg/mL

Now that we know the concentration of BSA in the final solution, we can calculate the mass of BSA in the solution by using the following formula:

mass = concentration x volume

The volume of the final solution is 2.4 mL. To convert this to μL, we need to multiply by 1000:

2.4 mL x 1000 μL/mL = 2400 μL

Now we can calculate the mass of BSA:

mass = 0.0104 mg/mL x 2400 μL = 24.96 μg

Therefore, the mass of BSA in the solution is 24.96 μg.

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During a laboratory activity, a student places 21.0 mL of hydrochloric acid solution, HC1(ag),
of unknown concentration into a flask. The solution is titrated with 0.125 M NaOH(ag) until the
acid is exactly neutralized. The volume of NaH(ag) added is 18.5 milliliters. During this
laboratory activity, appropriate safety equipment is used and safety procedures are followed.

Answers

The presence of the ions in the HCl would make the solution to conduct electricity.

Why does HCl solution conduct electricity?

Because it separates into ions (H+ and Cl-) when hydrochloric acid is dissolved in water, HCl (hydrochloric acid) solution conducts electricity. The electric charge of the H+ and Cl- ions allows them to travel and convey current across the solution.

The dissociation constant (Ka) of HCl describes how much of the compound separates into ions depending on the concentration of the solution. A higher HCl concentration will produce more ions, which will increase conductivity.

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explain how electrical conductivity can be used to distinguish between magnesium oxide and silicon oxide​

Answers

Magnesium metal will conduct electricity via mobile electrons whether it is in the solid or liquid state.

Magnesium oxide will not conduct electricity in the solid state as they are no mobile charge carriers.

Molten (liquid) magnesium oxide has mobile ions and these can transfer electrons via mobile ions. This is electrolysis and the compound is turned back into its elements (magnesium and oxygen).

Calculate the pH of 0. 10 M solution of hypochlorous acid, HOCl, Ka = 2. 9 x 10-8

Answers

The pH of a 0.10 M solution of hypochlorous acid with a Ka value of 2.9 x 10-8 is approximately 4.77.

Hypochlorous acid, also known as HOCl, is a weak acid that can dissociate in water to form hydrogen ions (H+) and hypochlorite ions (OCl-). The dissociation constant of HOCl, also known as Ka, is a measure of the strength of the acid. In this case, the Ka value of HOCl is 2.9 x 10-8.

To calculate the pH of a 0.10 M solution of HOCl, we need to use the Ka value and the expression for the equilibrium constant:

Ka = [H+][OCl-]/[HOCl]

We can assume that the concentration of HOCl at equilibrium is equal to the initial concentration, since it is a weak acid and only partially dissociates. We also know that the concentration of H+ is equal to the concentration of the acid that dissociated, so we can substitute these values into the expression:

Ka = [H+]^2/[HOCl]
[H+]^2 = Ka x [HOCl]
[H+]^2 = 2.9 x 10-8 x 0.10
[H+] = 1.7 x 10-5 M

Now that we have calculated the concentration of H+, we can use the pH equation to find the pH:

pH = -log[H+]
pH = -log(1.7 x 10-5)
pH = 4.77

Therefore, the pH of a 0.10 M solution of hypochlorous acid with a Ka value of 2.9 x 10-8 is approximately 4.77.

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A 100. -gram sample of liquid water is heated from 20. 0°C to 50. 0°C. Enough KCIO3(s) is dissolved in the sample of water at 50. 0°C to form a saturated solution.


Based on Table G, determine the mass of KClO3(s) that must dissolve to make a saturated solution in 100. G of H20 at 50. 0°C

Answers

A 100 gram sample of liquid water is heated from 20. 0°C to 50. 0°C, the mass of [tex]KClO_3[/tex](s) that must dissolve to make a saturated solution in 100 g of H2O at 50.0°C is 60 grams.

Table G must be consulted to establish the mass of [tex]KClO_3[/tex](s) that must dissolve to form a saturated solution in 100 g of H2O at 50.0°C.

According to the table, the solubility of  [tex]KClO_3[/tex] at 48°C is 60 grammes of  [tex]KClO_3[/tex] per 100 grammes of [tex]H_2O[/tex]. We must examine the solubility at 48°C since the water is heated from 20.0°C to 50.0°C.

Therefore, the mass of  [tex]KClO_3[/tex](s) that must dissolve to make a saturated solution in 100 g of  [tex]H_2O[/tex] at 50.0°C is 60 grams.

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Your question seems incomplete, the probable complete question is:

A 100. -gram sample of liquid water is heated from 20. 0°C to 50. 0°C. Enough KCIO3(s) is dissolved in the sample of water at 50. 0°C to form a saturated solution.

Based on Table G, determine the mass of KClO3(s) that must dissolve to make a saturated solution in 100. G of H20 at 50. 0°C

What are the equilibrium concentration of each species for the complex ion 0. 500M Co(NH3)6+3? Kd=2. 2 x 10-34

Answers

The equilibrium concentration of each species for the complex ion 0.500M [tex]Co(NH_3)^6+3[/tex] can be calculated using the dissociation constant (Kd) of 2.2 x 10^-34.

The dissociation reaction for the complex ion is:

[tex]Co(NH_3)^6+3[/tex]⇌ ]tex]Co_3[/tex]+ [tex]6NH_3[/tex]

The equilibrium constant expression for this reaction is:

Kd = [Co3+] [NH3]^6 / [Co(NH3)6+3]

We can assume that x moles of Co(NH3)6+3 dissociates to form x moles of Co3+ and 6x moles of NH3. Therefore, the equilibrium concentrations of the species are:

[Co(NH3)6+3] = 0.500 - x
[Co3+] = x
[NH3] = 6x

Substituting these values into the equilibrium constant expression and solving for x gives:

Kd = [x] [6x]^6 / [0.500 - x]
2.2 x 10^-34 = 46656 x^7 / (0.500 - x)

Since Kd is very small, we can assume that x is much smaller than 0.500. Therefore, we can approximate 0.500 - x as 0.500.

2.2 x 10^-34 = 46656 x^7 / 0.500
x = 2.38 x 10^-6 M

Therefore, the equilibrium concentrations of each species are:

[Co(NH3)6+3] = 0.500 - x = 0.49999762 M
[Co3+] = x = 2.38 x 10^-6 M
[NH3] = 6x = 1.43 x 10^-5 M

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In states along the Gulf of Mexico, fossilized seashells from millions of years ago are often found on land many kilometers from the shore. These fossils are evidence that

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States bordering the Gulf of Mexico have fossilized seashells from millions of years ago that were discovered on the ground far from the shore. This is evidence of previous geological and environmental changes in the area.

These fossils imply that the sea levels were much higher than they are today and that the area was once submerged underwater. The land rose and the sea retreated over time due to the movement of tectonic plates and other geological processes, leaving fossilized relics of marine life on what is now dry land. These fossils help us better comprehend the long-term processes that have changed our planet over millions of years and offer insightful information on the history of the area.

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If 4 moles of a gas are at a pressure of 105. 6 kpa and a volume of 12 liters, what is the temperature of the gas?




I just need the answer not a link please!

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If 4 moles of a gas are at a pressure of 105. 6 kpa and a volume of 12 liters, the temperature of the gas is 399.36 K.

To solve this problem, we can use the ideal gas law: PV = nRT, where P is the pressure, V is the volume, n is the number of moles of gas, R is the gas constant, and T is the temperature in kelvin. Rearranging the equation, we get T = PV/nR.

Substituting the given values, we have:

T = (105.6 kPa)(12 L) / (4 mol)(8.31 J/(mol*K))

Simplifying, we get:

T = 399.36 K

Therefore, the temperature of the gas is 399.36 K, or 126.21°C.

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Consider the following oxidation-reduction reaction: 2fe3+(aq) + 2hg(l) + 2cl−(aq) → 2fe2+(aq) + hg2cl2(s)

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The balanced oxidation-reduction reaction is 2Fe³⁺(aq) + 2Hg(l) + 2Cl⁻(aq) → 2Fe²⁺(aq) + Hg₂Cl₂(s).

The given oxidation-reduction reaction is: 2Fe³⁺(aq) + 2Hg(l) + 2Cl⁻(aq) → 2Fe²⁺(aq) + Hg₂Cl₂(s).


Here is a step-by-step explanation of the reaction:
1. Identify the oxidation and reduction half-reactions:
- Oxidation: Hg(l) → Hg²⁺ + 2e⁻ (loss of electrons)
- Reduction: Fe³⁺ + e⁻ → Fe²⁺ (gain of electrons)

2. Balance the half-reactions:
- Oxidation: 2Hg(l) → Hg₂²⁺ + 4e⁻ (multiplied by 2 to balance electrons)
- Reduction: 2Fe³⁺ + 2e⁻ → 2Fe²⁺ (already balanced)

3. Add the half-reactions together:
2Fe³⁺ + 2Hg(l) + 2e⁻ → 2Fe²⁺ + Hg₂²⁺ + 4e⁻

4. Cancel the electrons on both sides:
2Fe³⁺ + 2Hg(l) → 2Fe²⁺ + Hg₂²⁺

5. Combine the remaining ions to form the final products:
2Fe³⁺(aq) + 2Hg(l) + 2Cl⁻(aq) → 2Fe²⁺(aq) + Hg₂Cl₂(s)

So, the balanced oxidation-reduction reaction is 2Fe³⁺(aq) + 2Hg(l) + 2Cl⁻(aq) → 2Fe²⁺(aq) + Hg₂Cl₂(s).

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which of the following compounds has a larger lattice energy licl or csbr

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CsBr has a larger lattice energy than LiCl because Cs+ has a larger ionic radius and a greater charge than Li+.

The lattice energy of an ionic compound is determined by the strength of the electrostatic attraction between the ions in the solid crystal lattice. This attraction is influenced by the charges on the ions and the distance between them. The larger the charge on the ions, the greater the lattice energy, and the smaller the distance between them, the greater the lattice energy.

Br- also has a greater charge density than Cl-, making the electrostatic attraction between Cs+ and Br- stronger than that between Li+ and Cl-. Therefore, CsBr has a higher lattice energy than LiCl.

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When magnesium chlorate (Mg(ClO3)2 is decomposed, oxygen gas and magnesium chloride are produced. What volume of oxygen gas at STP is produced when 3. 81 g of Mg(ClO3)2 decomposes?

Answers

The volume of oxygen gas produced at STP when 3.81 g of Mg(ClO₃)₂ decomposes is 0.511 L.

When magnesium chlorate (Mg(ClO₃)₂) is decomposed, oxygen gas and magnesium chloride are produced. To find the volume of oxygen gas at STP when 3.81 g of Mg(ClO₃)₂ decomposes, follow these steps:

1. Write the balanced chemical equation for the decomposition of magnesium chlorate:
  Mg(ClO₃)₂ (s) → 2ClO₂ (g) + MgCl₂ (s)

2. Calculate the molar mass of Mg(ClO₃)₂:
  Mg: 24.31 g/mol
  Cl: 35.45 g/mol (2 Cl atoms)
  O: 16.00 g/mol (6 O atoms)
  Total: 24.31 + (2 x 35.45) + (6 x 16.00) = 167.21 g/mol

3. Determine the moles of Mg(ClO₃)₂:
  Moles = (mass of Mg(ClO₃)₂) / (molar mass of Mg(ClO₃)₂)
  Moles = 3.81 g / 167.21 g/mol ≈ 0.0228 mol

4. Use the balanced equation to find the moles of oxygen gas produced:
  From the equation, 1 mol of Mg(ClO₃)₂ produces 1 mol of O₂. Therefore, 0.0228 mol of Mg(ClO₃)₂ will produce 0.0228 mol of O₂.

5. Use the molar volume of a gas at STP (22.4 L/mol) to find the volume of O₂ produced:
  Volume of O₂ = (moles of O₂) x (molar volume at STP)
  Volume of O₂ = 0.0228 mol x 22.4 L/mol ≈ 0.511 L

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a generic salt, ab3, has a molar mass of 305 g/mol and a solubility of 4.30 g/l at 25 °c. ab3(s)↽−−⇀a3 (aq) 3b−(aq) what is the ksp of this salt at 25 °c?

Answers

The dissociation reaction for the salt AB3 is:

AB3(s) ↔ A3+(aq) + 3B-(aq)

Let's assume the solubility of AB3 in water at 25 °C is x mol/L. Then, the equilibrium concentrations of A3+ and B- can be expressed as x and 3x, respectively.

The Ksp expression for AB3 is:

Ksp = [A3+][B-]^3 = x(3x)^3 = 27x^4

The molar mass of AB3 is 305 g/mol, so the number of moles in 4.30 g (the solubility) is:

n = 4.30 g / 305 g/mol = 0.0141 mol/L

Therefore, the solubility of AB3 at 25 °C is:

x = 0.0141 mol/L

Substituting this into the Ksp expression:

Ksp = 27x^4 = 27(0.0141)^4 = 5.6 x 10^-9

Therefore, the Ksp of AB3 at 25 °C is 5.6 x 10^-9.

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If an 18 m solution was diluted to a 6.5 m solution that
had a new volume of 3.25 l, how many l of the original
solution were added?

Answers

To make a 6.5 m solution with a volume of 3.25 L from an 18 m solution, we need to add 1.14 L of the original solution.

To calculate the volume of the original solution added, we can use the equation:

C1V1 = C2V2

where C1 is the initial concentration, V1 is the volume of the initial solution added, C2 is the final concentration, and V2 is the final volume of the diluted solution.

Plugging in the given values, we get:

(18 M) V1 = (6.5 M) (3.25 L)

Solving for V1, we get:

V1 = (6.5 M) (3.25 L) / (18 M)

V1 = 1.1389 L or approximately 1.14 L

Therefore, about 1.14 L of the original solution was added to make the 6.5 m solution with a volume of 3.25 L.

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A glucose solution in water is labelled as 20%. the density of the solution is 1.20 g/ml.
what is the molarity of the solution?

help your boy out

Answers

The molarity of the glucose solution is 6.66 M.

To determine the molarity of the glucose solution, we first need to convert the percentage concentration to grams of glucose per milliliter of solution.

Since the solution is labeled as 20%, we know that there are 20 grams of glucose in 100 milliliters of solution.

We can then use the density of the solution to convert from milliliters to grams:

1.20 g/mL x 100 mL = 120 g

So, there are 120 grams of glucose in the entire solution.

Now, we can calculate the number of moles of glucose using its molar mass, which is 180.16 g/mol:

moles of glucose = mass of glucose / molar mass = 120 g / 180.16 g/mol = 0.666 moles

Finally, we can calculate the molarity of the solution:

molarity = moles of solute / volume of solution in liters

We know that the volume of the solution is 100 mL or 0.1 L:

molarity = 0.666 moles / 0.1 L = 6.66 M

Therefore, the molarity of the glucose solution is 6.66 M.

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