The rust that appears on steel surfaces is iron(III) oxide. If the rust found spread over the surfaces of a steel bicycle frame contains a total of 9.62×1022 oxygen atoms, how many grams of rust are present on the bicycle frame?

Answer:

A. breaking down food into nutrients

Explanation:

Homeostasis is the ability of the human body to regulate itself or achieve internal stability. If a body's conditions can not be regulated, it may result to the break down of its immune system leading to infections, diseases or disorder.

To maintain homeostasis, the circulatory system transports oxygen-rich blood to other parts of the body. So that the immediate condition can be regulated. It works with the respiratory system, delivering nutrients to other parts of the body. It also remove wastes from our body.

gfvygikbgkuuk uygglyh

Answer:

Air is a good insulator because the molecules are far apart. This reduces mobility of air molecules hence conduction is difficult.

Explanation:

For other statements :

= Kinetic energy + Potential energy

Answer:

Air is a good insulator because the molecules are far apart. This reduces mobility of air molecules hence conduction is difficult.

Explanation:

:p

Answer:

When you begin to add the molecules, the temperature inside the container is  300  K. After all 250 molecules have been added, the temperature inside the container is  300  K.

Answer:

The maximum amount of CO2 that can be formed is 9.15 grams CO2

O2 is the limiting reactant

There will remain 4.82 grams of benzene

Explanation:

Step 1: Data given

Mass of benzene = 7.53 grams

Mass of oxygen gas = 8.33 grams

Molar mass of benzene = 78.11 g/mol

Molar mass oxygen gas = 32.00 g/mol

Step 2: The balanced equation

2C6H6 + 15O2 → 12CO2 + 6H2O

Step 3: Calculate moles

Moles = mass / molar mass

Moles C6H6 = 7.53 grams / 78.11 g/mol

Moles C6H6 = 0.0964 moles

Moles O2 = 8.33 grams / 32.00 g/mol

Moles O2 = 0.2603 moles

Step 4: Calculate the limiting reactant

For 2 moles benzene we need 15 moles O2 to produce 12 moles CO2 and 6 moles H2O

O2 is the limiting reactant. It will completely be consumed ( 0.2603 moles). Benzene is in excess. there will react 2/15 * 0.2603 = 0.0347 moles

There will remain 0.0964 - 0.0347 = 0.0617 moles benzene

This is 0.0617 moles * 78.11 g/mol = 4.82 grams benzene

Step 5: Calculate moles CO2

For 2 moles benzene we need 15 moles O2 to produce 12 moles CO2 and 6 moles H2O

For 0.2603 moles O2 we'll have 12/15 * 0.2603 = 0.208 moles CO2

Step 6: Calculate mass CO2

Mass CO2 = moles CO2 * molar mass CO2

Mass CO2 = 0.208 moles * 44.01 g/mol

Mass CO2 = 9.15 grams

The potential of this concentration cell can be calculated using the Nernst Equation, which provides an approximation of about 0.098 V for the potential of the cell. This corresponds to choice (e).

The potential for this concentration cell can be calculated using the Nernst equation, which incorporates the standard reduction potential and the concentrations of the reaction species in its equilibrium state. The Nernst Equation can be written as:

E = E0 - (0.05916/n) * logQ

Where E is the cell potential, E0 is the standard cell potential (+0.34 V for Cu2+/Cu), n is the number of moles of electrons exchanged in the reaction (which is 2 for this reaction), and Q is the reaction quotient, which is the ratio of concentration of products to reactants.

Since this cell involves Cu2+ being reduced to Cu, the concentration in the cell where [Cu2+]=2.0M would be considered the product, and the one where [Cu2+]=1.0×10–3M would be considered the reactant. Therefore, Q=[product]/[reactant]=2.0/ (1.0×10–3) = 2000.

Plugging these values into the Nernst Equation, we get:

E = 0.34V - (0.05916/2) * log2000

After calculation, gives us an E value of approximately V, which correlates to option (e).

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Answer:

Pollutants are typically the cause of major water quality degradation around the world. Globally, the most prevalent water quality problem is eutrophication, a result of high-nutrient loads (mainly phosphorus and nitrogen), which substantially impairs beneficial uses of water.

Explanation:

Answer:

Water pollution is caused by industrial waste, temperature rising, deforestation and many other factors. All these facts are affecting water and they happen all over the world in many large bodies of water. Thus, it is a global issue,

Explanation:

I explained it in the answer loll.

Answer:

The new volume is 87.5 ml.

Explanation:

We have,

Volume of sample of neon is 175 ml

The pressure changed from 75 kPa to 150 kPa.

We need to find new volume.

It is based on the concept of Boyle's law. Let V₂ is new volume. So,

[tex]P_1V_1=P_2V_2\\\\V_2=\dfrac{P_1V_1}{P_2}\\\\V_2=\dfrac{175\times 75}{150}\\\\V_2=87.5\ ml[/tex]

So, new volume is 87.5 ml.

Using Boyle's Law, the new volume of the neon gas when the pressure is changed from 75 kPa to 150 kPa is calculated to be 87.5 mL.

To find the new volume of a gas when its pressure is changed, we use Boyle's Law.

Boyle's Law states that the pressure and volume of a gas are inversely proportional when temperature and the number of gas molecules remain constant.

The formula is expressed as:

P₁V₁ = P₂V₂

In this problem:

We need to find the final volume, V₂. Rearranging Boyle's Law, we get:

V₂ = (P₁V₁) / P₂

Plugging in the values:

V₂ = (75 kPa * 175 mL) / 150 kPa

V₂ = 13125 mL / 150 kPa

V₂ = 87.5 mL

Therefore, the new volume of the neon gas sample is 87.5 mL.

Answer: B-- the length of the chain and degree of cross-linking.

Explanation: Silicones can be oils or rubber-like materials depending on ___the length of the chain and degree of cross-linking.____

Silicone rubber is an elastomer which is composed of silicone containing silicon together with carbon, hydrogen, and oxygen. silicone rubber can be found in a wide variety of products because of its ability to withstand very high temperatures and pressures. eg cooking and food storage products; clothing apparels , automotive devices etc   while

Silicone oil is a linear chain siloxane repeating units Si--0 with radical side group as such as methyl, phenyl etc  bonded to it. They are oils because of they are  viscose  and have ability to  repel. Silicone oils are mostly employed in medicine for surgical tools.

Answer: it’s 15.0 L

Explanation: Trust me

Answer:

a

The  standard Gibbs free energy change for the reaction at 298 K is

               [tex]\Delta G^o_{re} = -800.99 kJ/moles[/tex]

b

  The  energetic (ΔH)  is  [tex]\Delta H^o _{re} = -802.112 \ kJ/mole[/tex]

    The  entropic contributions  is  [tex]T \Delta S = -1.126 \ kJ/mole[/tex]

Energetic is the dominant contribution

c

  The equilibrium constant at 298 K  is  [tex]K = 2.53[/tex]

Explanation:

From the question we are told that

    The chemical reaction is  

              [tex]CH_4 + 2 O_2 ----> 2 H_2 O + CO_2[/tex]

Generally ,

The free energy of formation of  [tex]CH_4[/tex]  is a constant with a value  

          [tex]\Delta G^o_f __{CH_4}} = -50.794 \ kJ / moles[/tex]

The free energy of formation of  [tex]O_2[/tex]  is a constant with a value  

        [tex]\Delta G^o_f __{O_2}} = 0 \ kJ / moles[/tex]

The free energy of formation of  [tex]H_2O[/tex]  is a constant with a value  

            [tex]\Delta G^o_f __{H_2O}} = -228.59 \ kJ / moles[/tex]

The free energy of formation of  [tex]CO_2[/tex]  is a constant with a value  

            [tex]\Delta G^o_f __{H_2O}} = -394.6 \ kJ / moles[/tex]

The Enthalpy  of  formation of  [tex]CH_4[/tex] at standard condition i  is a constant with a value  

             [tex]\Delta H^o_f __{CH_4}} = -74.848 \ kJ / moles[/tex]

The Enthalpy  of   formation of  [tex]CO_2[/tex] at standard condition is a constant with a value  

              [tex]\Delta H^o_f __{CO_2}} = -393.3 \ kJ / moles[/tex]

The Enthalpy  of  formation of [tex]O_2[/tex] at standard condition is a constant with a value  

              [tex]\Delta H^o_f __{O_2}} = 0 \ kJ / moles[/tex]

The Enthalpy  of   formation  of  [tex]H_2O[/tex] at standard condition is a constant with a value  

              [tex]\Delta H^o_f __{H_2O}} = -241.83 \ kJ / moles[/tex]

The standard Gibbs free energy change for the reaction at 298 K is mathematically represented as

      [tex]\Delta G^o_{re} = (\Delta G^o_f __{H_2O}} + (2 * \Delta G^o_f __{H_2O}} )) - ((\Delta G^o_f __{CH_4}} + (2 * \Delta G^o_f __{O_2}}))[/tex]

Substituting values

 [tex]\Delta G^o_{re} =\Delta G= ( (-394.6 ) + (2 * (-228.59)) ) - ((-50.794) +(2* 0))[/tex]

 [tex]\Delta G^o_{re} = -800.99 kJ/moles[/tex]

The Enthalpy  of   formation  of the reaction is

[tex]\Delta H^o _{re} =( \Delta H^o_f __{CH_4}} + (2 * (\Delta H^o_f __{H_2O}} ))) - ( \Delta H^o_f __{CH_4}} + (2 * \Delta H^o_f __{O_2}}))[/tex]

Substituting values

  [tex]\Delta H^o _{re} = \Delta H = ((-393.3) + 2 * ( -241.83)) - ( -74.848 + (2 * 0))[/tex]

 [tex]\Delta H^o _{re} = -802.112 \ kJ/mole[/tex]

 The entropic contributions is mathematically represented as

    [tex]T \Delta S = \Delta H -\Delta G[/tex]

 Substituting values

     [tex]T \Delta S =-802 .112-(-800.986)[/tex]

    [tex]T \Delta S = -1.126 \ kJ/mole[/tex]

Comparing the values of  [tex]T \Delta S \ and \ \Delta G[/tex] we see that  energetic is the dominant contribution

The standard Gibbs free energy change for the reaction at 298 K can also be represented mathematically  as

         [tex]\Delta G = -RT lnK[/tex]

Where  R  is the gas constant with as value of  [tex]R = 8.314 *10^{-3} kJ/mole[/tex]

   K is the equilibrium constant

   T is the temperature with a given value  of [tex]T = 298K[/tex]

Making K the subject we have

      [tex]K = e ^{- \frac{\Delta G }{RT} }[/tex]

Substituting values  

      [tex]K = e ^{- \frac{-800.99 }{(8.314 *10^{-3} ) * (298)} }[/tex]

       [tex]K = 2.53[/tex]

Final answer:

To calculate the standard Gibbs free energy change for the combustion of methane, use the formula ΔG = ΔH - TΔS, where ΔG is the standard Gibbs free energy change, ΔH is the standard enthalpy change, T is the temperature in Kelvin, and ΔS is the standard entropy change.

Explanation:

The standard Gibbs free energy change for a reaction can be calculated using the formula:

ΔG = ΔH - TΔS

where ΔG is the standard Gibbs free energy change, ΔH is the standard enthalpy change, T is the temperature in Kelvin, and ΔS is the standard entropy change.

In this case, we are given the thermochemical equation for the combustion of methane as: CH4 + 2O2 → 2H2O + CO2

To calculate the standard Gibbs free energy change, we need the values of ΔH and ΔS for this reaction at 298 K. Once we have these values, we can plug them into the formula to get the answer.

Answer:

B) substitution

Explanation:

2,3 dichloropentane is a hydrocarbon that contains two chlorine atoms in its chain. It has a chemical formula: [tex]C_{5} H_{10} Cl_{2}[/tex]. In the compound, two hydrogen atoms has been substituted by two chlorine atoms.

A substitution reaction is a process by which an atom of a compound is being replaced by another atom to form a new compound due to a chemical reaction. This is one of the general properties of alkanes.

Considering the definition of oxidation and reduction, Na(s) is oxidized.

Oxidation is a reaction where an atom, ion or molecule loses electrons, increasing the oxidation state.

In other words, oxidation is the loss of electrons by a molecule, atom, or ion. An element is oxidized when it loses electrons in a reaction; increasing in the oxidation state of the atom. The higher the oxidation state of an atom, the greater the degree of oxidation.

The reduction corresponds to the gain of electrons of an atom, ion or molecule, lowering the oxidation state.

In other words, an element is reduced when it gains electrons in a reaction, lowering its oxidation state. The lower the oxidation state of an atom, the greater the degree of reduction.

You know the half-reaction Na(s) → Na⁺ + e⁻

In this case, oxidation reaction takes place in which the oxidation of sodium changes from 0 to 1+, and the sodium loses 1 electron.

In summary, Na(s) is oxidized.

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Final answer:

Sodium (Na) is oxidized, which means it loses an electron in the half-reaction Na(s) → Na^+ + e−. This is indicative of an oxidation process at the anode.

Explanation:

In the half-reaction Na(s) → Na^+ + e−, sodium metal (Na) is losing an electron to form sodium ions (Na^+). This process is known as oxidation, which is the loss of electrons. Therefore, the correct answer to the given question is B. Na(s) is oxidized.

Oxidation occurs at the anode during a redox reaction. Comparatively, reduction, which is the gain of electrons, takes place at the cathode as in the half-reaction Y^+ (aq) + e → Y(s). The sodium atoms at the anode of an electrochemical cell would give up their electrons to become Na^+ ions, which is the process described by the given half-reaction.

Answer:

Carbohydrates------Benedict test

Starch and glycogen --------I2KI test

Proteins--------Biuret test

Lipids-------Paper test

Nucleic acids------None of the above

Explanation:

Benedict's Test is can be used to detect simple carbohydrates. The Benedict's test can detect reducing sugars (monosaccharide's and some disaccharides), having free ketone or aldehyde functional groups.

The Biuret Test shows the presence of peptide bonds, which are the basis for proteins. These bonds makes the blue Biuret reagent turn purple. The rest is carried out by adding an equal amount of NaOH to a solution of the food, mix carefully and add a few drops of 1% CuSO4, without shaking the mixture.

Lipids form a translucent stain on paper while starch/glycogen turns I2/KI solution blue-black

Answer:

A) A solid salt dissolves in water.

Explanation:

A solid, like a salt, dissociates into ions as it dissolves in liquid. The particles (ions) become more spaced apart and with greater randomness. This is increasing entropy.

Answer:

hhgjghjfgjfghj

Explanation:

Explanation:

It is known that like dissolves like. Therefore, polar solutes are soluble in polar solvents.

For example, salt is a polar compound and water is a polar solvent. Therefore, salt will dissolve in water.

On the other hand, oil is an inorganic solvent and hence, it is unable to dissolve any polar solute.

Therefore, we can conclude that following is true about the effect of polarity on solubility.

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Answer:

Answer choice 'D' => Kc(2) = 581

Explanation:

2HD ⇄ H₂ + D₂ => Kc(1) = [H₂][D₂]/[HD]² => 0.28

5H₂ + 5D₂ ⇄ 10HD => Kc(2) = [HD]¹⁰/[H₂]⁵[D₂]⁵ = 1/(Kc(1))⁵ = 1/(0.28)⁵ = 581

For these type problems, one should 1st write the empirical Kc expression for each equation given. Then compare the expressions and ask 'how can the 1st Kc expression be changed into the 2nd Kc expression?' Apply and substitute given Kc(1) into the Kc(2) expression and solve for numerical results.  

The equilibrium constant for the second reaction 5 H2(g) + 5 D2(g) ⇌ 10 HD(g) is 0.0017 when the equilibrium constant for the first reaction 2 HD(g) ⇌ H2(g) + D2(g) is 0.28. This is calculated by taking the first reaction's Kc and raising it to the power of 5.

The chemical reaction you have given is a perfect example of equilibrium in chemistry. In the first reaction, 2 HD(g) ⇌ H2(g) + D2(g), the equilibrium constant Kc is already given as 0.28. If we look at the second reaction, 5 H2(g) + 5 D2(g) ⇌ 10 HD(g), we can see that it's technically the first reaction multiplied by 5. Therefore, to find Kc for the second reaction, we simply raise the Kc of the first reaction to the power of 5. So, Kc for the second reaction would be (0.28)^5 = 0.0017.

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Both questions are answered below:

Explanation:

Some atoms of the solvent can be replaced by atoms of relatively similar sizes, allowing for atom exchange or substitution, Whenever these atoms can be substituted within the matrix, it forms a substitutional alloy. Examples include bronze and brass.

Alternatively, some atoms are much smaller in size and cannot successfully be exchanged  for the other. Instead, they get trapped within the matrix. these are called interstitial alloys, e.g steel.

Answer:

295.4K

Explanation:

Step 1:

Obtaining an expression which relates density, pressure and temperature together.

This is can done by using the ideal gas equation as shown below:

PV = nRT........... (1)

Recall:

Number of mole (n) = mass (m) /Molar Mass (M) i.e

n = m/M

Substituting the m/M for n in equation 1 above

PV = nRT

PV = mRT/M

Divide both side by P

V = mRT/MP

Divide both side by m

V/m = RT/MP

Invert the above equation

m/V = MP/RT.....(2)

Density (D) = mass (m) /volume (V)

D = m/V

Replacing m/V with D in equation 2.

m/V = MP/RT

D = MP/RT

Step 2:

Data obtained from the question. This includes the following:

Density (D) = 2.22 g/L

Pressure (P) = 1.04 atm

Molar Mass of (M) = 51.7 g/mol.

Temperature (T) =.?

Gas constant (R) = 0.082atm.L/Kmol

Step 3:

Determination of the temperature.

D = MP/RT

2.22 = 51.7 x 1.04 / 0.082 x T

Cross multiply to express in linear form

2.22 x 0.082 x T = 51.7 x 1.04

Divide both side by 2.22 x 0.082

T = (51.7 x 1.04) /(2.22 x 0.082)

T = 295.4K

Therefore, the temperature of the gas is 295.4K

Answer:

7.5

Explanation:

pH + pOH = 14

pOH = 14 - 6.5

pOH = 7.5

The pOH of a solution, given a pH of 6.5 at temperature 25°C, is 7.5. This is calculated by subtracting the pH from 14.

The pH and pOH of a solution are related by the equation pH + pOH = 14 at 25°C. Given that the pH of the solution is 6.5, to find the pOH you simply subtract the pH from 14. So, pOH = 14 - pH. In this case, pOH = 14 - 6.5 = 7.5. Therefore, the pOH of a solution with a pH of 6.5 is 7.5.

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Answer:an exoskeleton

Explanation:jus did it

Answer:

B

Explanation:

Answer:

0.94 L

Explanation:

Step 1: Write the balanced reaction

2 Al + 3 Br₂ = 2 AlBr₃

Step 2: Calculate the moles of Br₂ required to produce 12 moles of AlBr₃

The molar ratio of Br₂ to AlBr₃ is 3:2. Then,

[tex]12molAlBr_3 \times \frac{3molBr_2}{2molAlBr_3} =18molBr_2[/tex]

Step 3: Calculate the mass of bromine corresponding to 18 moles

The molar mass of bromine is 159.81 g/mol. Then,

[tex]18mol \times \frac{159.81g}{mol} =2.9 \times 10^{3} g[/tex]

Step 4: Calculate the volume of bromine corresponding to 2.9 × 10³ g

The density of bromine is 3.1 g/mL. The volume of bromine is:

[tex]2.9 \times 10^{3} g \times \frac{1mL}{3.1g} \times \frac{1L}{1000mL} = 0.94 L[/tex]

Answer:

Explanation:

kindly check the file below to show the explanation . Thanks

Answer:

23388 years

Explanation:

Now we have to use the formula;

0.693/t1/2 = 2.303/t log No/N

Where

t1/2 = half life of the C-14 = 5700

t= age of the sample

No= radioactive material in a modern sample = No

N= radioactive material in a sample being studied. = 0.81No( since the amount N= No-0.19No)

Hence;

0.693/5700 = 2.303/t log No/0.81No

0.693/5700 = 2.303/t log 1/0.81

0.693/5700 = 2.303/t × 1.235

0.693/5700= 2.844/t

1.216×10^-4= 2.844/t

t= 2.844/1.216×10^-4

t= 23388 years

Complete Question: Which solution will have the greatest electrical conductivity?

A. 0.50MHCl

B. 0.10MRbOH

C. 0.50MK3PO4

D. 2.0MC6H12O6

Answer:

Option C =>0.50M K3PO4.

Explanation:

Electrical conductivity has do do with the mobility of electrons or ion, that is to say for electrical conductivity to occur there should be the movement of ions or electrons.

So, let us take option (A) and option (B) first, that is 0.50MHCl and 0.10MRbOH respectively. Both HCl and RbOH are good conductors of electricity that is to say they are both strong electrolytes. But, between the two, (that is HCl and RbOH) HCl will be better conductor of electricity that RbOH.

Option (D) is incorrect totally, and option (C) 0.50M K3PO4 is a strong electrolytes too and it will be will be the CORRECT ANSWER in this question because it gives 4 ions( K3PO4 <======> 3K^+ + PO4^-3) unlike HCl that only gives 2 ions(that is HCl <=====> H^+ + Cl^-).

Option C. 0.50M K₃PO₄.

Let's understand the concept behind electrical conductivity:

Electrical conductivity tells us how well a material will allow electricity to travel through it. It is proportional to the product of mobility and carrier concentration.

Let's look at options one by one:

K₃PO₄(aq) → 3K⁺(aq) + PO₄³⁻(aq)

So out the following options K₃PO₄ will have the greatest electrical conductivity since it is the strongest electrolyte out of the given options.

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Answer:

Atoms make up every substance around you.​ True

Explanation:

Atoms can be seen with the naked eye. False because atoms are very very very smallllll....

Atoms do not have mass. False, atoms do have mass although it is very smallllllllll as welll

Atoms make up every substance around you.​ True, similar to how cells make up different things like tissues, and tissues make organs and so on, atoms make up everything around us.

Answer:

see explanation below

Explanation:

In this case, we need to write the overall reaction:

HC₃H₅O₃ + H₂O <-------> C₃H₅O₃⁻ + H₃O⁺

The lactic acid is a weak acid, so, when it dissociates in it's ions, part of the acid is dissociated. This depends of it's Ka to know which quantity was dissociated.

To calculate Ka, let's write an ICE chart first:

     HC₃H₅O₃ + H₂O <-------> C₃H₅O₃⁻ + H₃O⁺      Ka = ?

i)       0.045                                  0            0

c)          -y                                     +y           +y

e)   0.045 - y                                 y              y

Writting the Ka expression we have:

Ka = [C₃H₅O₃⁻] [H₃O⁺] / [HC₃H₅O₃]

Now, to calculate Ka we need the values of [C₃H₅O₃⁻] and [H₃O⁺] in equilibrium. Fortunately, we have the value of the pH, which is 2.63 and with this we can get the value of [H₃O⁺] and then, the value of y. With that value, we replace it in the Ka expression to calculate Ka:

[H₃O⁺] = 10^(-pH)

[H₃O⁺] = 10^(-2.63)

[H₃O⁺] = [C₃H₅O₃⁻] = x = 2.34x10⁻³ M

Now, let's replace this value in the Ka expression:

Ka = (2.34x10⁻³)² / (0.045 - 2.34x10⁻³)

Ka = 1.28x10⁻⁴

b) Now, let's calculate the pH with the obtained value of Ka. We will use the same expression of Ka so:

1.28x10⁻⁴ = y² / (0.045-y)    

1.28x10⁻⁴ (0.045 - y) = y²

5.76x10⁻⁶ - 1.28*10⁻⁴y = y²

y² + 1.28x10⁻⁴y - 5.76x10⁻⁶ = 0

From here, we'll use the quadratic equation general formula, for solving y:

y = -1.28x10⁻⁴ ±√(1.28x10⁻⁴)² + 4 * 1 * 5.76x10⁻⁶ / 2

y =  -1.28x10⁻⁴ ±√2.31x10⁻⁵ / 2

y = -1.28x10⁻⁴ ± 4.8x10⁻³ / 2

y₁ = 2.34x10⁻³ M

y₂ = -2.464x10⁻³ M

Now, as y₁ is positive this is the value that we will take.

This value would be the [H₃O⁺] in equilibrium.

The value of pH would be:

pH = -log[H₃O⁺]

pH = -log(2.34x10⁻³)

pH = 2.631

According to this value of pH we can actually expect an inprovement in the accuracy, basically because we obtain a value with more significant figures, and this are relationed with accuracy.

The molar concentrations of Fe2+ and Fe3+ in the original solution are 18.4 mM.

To calculate the molar concentrations of Fe2+ and Fe3+ in the original solution, we can use stoichiometry based on the net ionic equation provided:

MnO4- + 5Fe2+ + 8H+ -> Mn2+ + 5Fe3+ + 4H2O

From the equation, we can see that one mole of MnO4- reacts with 5 moles of Fe2+. In the first titration, 23.0 mL of 0.0200 M KMnO4 solution is required to react with all of the Fe2+ ions, which means there is a total of 23.0 mL x 0.0200 M = 0.460 mmol of Fe2+ in the original solution.

In the second titration, 40.0 mL of the same KMnO4 solution is required to react with all of the Fe2+ ions converted from Fe3+. This means there is a total of 40.0 mL x 0.0200 M = 0.800 mmol of Fe2+ in the original solution.

Since all of the Fe2+ ions are converted to Fe3+ in the first titration, the total amount of Fe3+ in the original solution is also 0.460 mmol.

Therefore, the molar concentrations of Fe2+ and Fe3+ in the original solution are:

[Fe2+] = 0.460 mmol / 25.0 mL = 18.4 mM

[Fe3+] = 0.460 mmol / 25.0 mL = 18.4 mM

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Answer:

Check the explanation

Explanation:

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Answer:

x = 100 * 1.1897 = 118.97 %, which is > 100 meaning that all of the HClO2 dissociates

Explanation:

Recall that , depression present in freezing point is calculated with the formulae = solute particles Molarity x KF

0.3473 = m * 1.86

Solving, m = 0.187 m

Moles of HClO2 = mass / molar mass = 5.85 / 68.5 = 0.0854 mol

Molality = moles / mass of water in kg = 0.0854 / 1 = 0.0854 m

Initial molality

Assuming that a % x of the solute dissociates, we have the ICE table:

                 HClO2         H+    +   ClO2-

initial concentration:       0.0854                    0             0

final concentration:      0.0854(1-x/100)   0.0854x/100   0.0854x / 100

We see that sum of molality of equilibrium mixture = freezing point molality

0.0854( 1 - x/100 + x/100 + x/100) = 0.187

2.1897 = 1 + x / 100

x = 100 * 1.1897 = 118.97 %, which is > 100 meaning that all of the HClO2 dissociates