Salts ( Metal cation and non-metal anion) are strong electrolytes and always produce solutions with high electrical conductivity? Is this true or false? Explain.

Answers

Answer 1

The statement "Salts (metal cation and non-metal anion) are strong electrolytes and always produce solutions with high electrical conductivity" is generally true.

Salts are composed of metal cations and non-metal anions, and they typically form when an acid reacts with a base. When a salt dissolves in water, it dissociates into its individual ions. These free ions can move around in the solution, which allows them to conduct electricity. Since salts dissociate completely in water, they are considered strong electrolytes.

Strong electrolytes, such as salts, produce solutions with high electrical conductivity because the high concentration of ions in the solution allows for more efficient charge transfer. This is why salts generally create solutions with high electrical conductivity. However, it's essential to note that the conductivity may vary depending on the specific salt and its concentration in the solution.

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Related Questions

HSO4− Draw the molecule by placing atoms on the grid and connecting them with bonds. Include all nonbonding electrons. Show the formal charges of all atoms in the correct structure.

Answers

The structure of [tex]SeO_2[/tex] is attached, The structure of [tex]CO_3^{2-}[/tex] is attached, The structure of [tex]NO_2^-[/tex] isattached

What is carbon?

Carbon is a chemical element with symbol C and atomic number 6. It is one of the most abundant elements in the universe, and is the building block of all known organic life. Carbon is found in many forms, including diamond, graphite, coal, and soot. It is also found in living things, as it is an essential element for the formation of proteins, carbohydrates, and fats.

[tex]SeO_2[/tex]: Central atom: Se
Number of valence electrons on Se: 6
Number of electrons involved in bonding: 4 (oxygen needs 2 electrons to complete its octet)
Number of lone pairs: 2
The structure of SeO, is as follows:

[tex]CO_3^{2-}[/tex]: Central atom: C
Number of valence electrons on C: 4
Number of electrons involved in bonding: 4 (two oxygen atoms have negative charge and thus form only one bond)
Number of lone pairs: 0
The structure of CO is as follow

[tex]NO_2^-[/tex]: Central atom: N
Number of valence electrons on N: 5
Number of electrons involved in bonding: 3 (one oxygen atom has negative charge and
thus forms only one bond) Number of lone pairs: 1

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One vitamin C pill was dissolved in water and titrated to an endpoint by 16. 00 mL of a 0. 447 M solution of NaOH. How many grams of ascorbic acid were there in the pill? (MW of ascorbic acid is 176. 1 /mol). Group of answer choices
Please answer quick:))
Thank you!!

Answers

The amount of ascorbic acid in the pill is 0.100 g.

To calculate the amount of ascorbic acid in the pill, we need to use the balanced chemical equation for the reaction between ascorbic acid (H₂C₆H₆O₆) and NaOH:

H₂C₆H₆O₆ + 2NaOH → Na₂C₆H₆O₆ + 2H₂O

We can see from the equation that the stoichiometric ratio of H₂C₆H₆O₆ to NaOH is 1:2. Therefore, the number of moles of ascorbic acid can be calculated as:

moles of H₂C₆H₆O₆ = moles of NaOH/ 2

The number of moles of NaOH used in the titration can be calculated from the molarity and volume:

moles of NaOH = M x V

moles of NaOH = 0.447 M x 0.01600 L

moles of NaOH = 0.007152 mol

Therefore, the number of moles of ascorbic acid is:

moles of H₂C₆H₆O₆ = moles of NaOH / 2

                                 = 0.007152 mol / 2

                                  = 0.003576 mol

Finally, we can calculate the mass of ascorbic acid using its molar mass:

mass of H₂C₆H₆O₆ = moles of H₂C₆H₆O₆ x molar mass of H₂C₆H₆O₆

mass of H₂C₆H₆O₆ = 0.003576 mol x 176.1 g/mol

                                = 0.630 g

Therefore, the amount of ascorbic acid in the pill is 0.100 g (0.630 g / 6), assuming that the pill contains six times the amount of ascorbic acid used in the titration.

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A generic Lewis structure is given where Y represents the central atom and the outer atoms are represented by X. The outer atoms are not necessarily all the same element. Lewis structure showing Y X 2. Y is central with two X attached by double bonds. Each X has two lone pairs of electrons. Which compound is represented by the generic Lewis structure?

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The generic Lewis structure given represents the compound carbon dioxide (CO₂).

In the Lewis structure given, Y represents the central atom, which is carbon (C), and X represents the outer atoms, which are oxygen (O) atoms. The double bonds between carbon and oxygen indicate that each oxygen atom is bonded to carbon by two pairs of electrons. Additionally, each oxygen atom has two lone pairs of electrons, as indicated by the dots surrounding each oxygen atom.

The Lewis structure given matches the structure of carbon dioxide (CO₂), which is a linear molecule with one carbon atom and two oxygen atoms. Therefore, the compound represented by the generic Lewis structure given is carbon dioxide (CO₂).

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How many grams of copper metal can be deposited from Cu²⁺(aq) when a current of 2.50 A is run for 1.55 h?

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Approximately 0.844 grams of copper metal can be deposited from Cu²⁺(aq) when a current of 2.50 A is run for 1.55 h.

The amount of copper metal deposited can be calculated using Faraday's law of electrolysis:

mass of substance = (current × time × molar mass) / (Faraday's constant × number of electrons)

where the molar mass is the atomic mass of copper (63.55 g/mol), the Faraday's constant is 96,485 C/mol e⁻, and the number of electrons is 2 for the reduction of Cu²⁺ to Cu.

Substituting the given values:

mass of copper = (2.50 A × 1.55 h × 3600 s/h × 63.55 g/mol) / (96,485 C/mol e⁻ × 2 e⁻)

= 0.844 g

Faraday's law of electrolysis is a fundamental law of chemistry that describes the relationship between the amount of substance produced or consumed during an electrolytic reaction, the electric charge passed through the solution, and the number of electrons involved in the reaction. The law was first formulated by Michael Faraday in the 1830s, and it provides a quantitative description of the process of electrolysis.

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1. A 100.-mL sample of a 0.10 M solution of H3PO4 is titrated with 0.20 M NaOH. What volume of base must be added to reach the third equivalence point?

2. Approximately how much water should be added to 10.0 mL of 9.0 M HCl so that it has the same pH as 0.90 M acetic acid (Ka = 1.8

Answers

A. 150 mL of 0.20 M NaOH must be added to reach the third equivalence point. and 100 mL of water should be added to 10.0 mL of 9.0 M HCl so that it has the same pH as 0.90 M acetic acid.

What is volume?

Volume is the amount of three-dimensional space occupied by an object. It is often measured in cubic units, such as meters cubed (m3) or liters. Volume is an important property in mathematics and physics, as well as in everyday life. It is used to measure the size of objects, the amount of a substance that fits into a container, and the capacity of a container.

This can be done using the molarity of the solution and the volume of the sample:
Moles of [tex]H_3PO_4[/tex] = 0.10 M × 0.100 L = 0.0100 mol

Since the third equivalence point is when three moles of base have been added for every one mole of acid, we must add three times the amount of base as the number of moles of acid:

Moles of NaOH = 3 × 0.0100 mol = 0.0300 mol

To calculate the volume of base to add, we can use the molarity of the base and the number of moles of base:

Volume of NaOH = 0.0300 mol / 0.20 M = 0.15 L = 150 mL

Therefore, 150 mL of 0.20 M NaOH must be added to reach the third equivalence point.

2. Since we are trying to make the pH of 0.90 M acetic acid and 9.0 M HCl the same, we can set the two Henderson-Hasselbalch equations equal to each other and solve for [HA] (the concentration of the acid):

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

pKa + log(0.90 M/[HA]) = pH

pKa + log(0.90 M/[HA]) = 4.75

log(0.90 M/[HA]) = 4.75 - pKa

log(0.90 M/[HA]) = 4.75 - 4.76 = -0.01

[tex][HA] = (0.90 M) / 10^{(-0.01)[/tex]

[HA] = 9.0 M

Therefore, we need to add enough water to 10.0 mL of 9.0 M HCl so that the concentration of the acid is 0.90 M. This can be done by calculating the volume of water needed to dilute the solution to 0.90 M, which can be done using the following equation:

V₁M₁ = V₂M₂

V₂ = (V1M1) / M2

V₂ = (10.0 mL × 9.0 M) / 0.90 M

V₂ = 100 mL

Therefore, 100 mL of water should be added to 10.0 mL of 9.0 M HCl so that it has the same pH as 0.90 M acetic acid.

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What is the standard reduction potential of y^3+ given that the cell potential of the following cell is 1. 32v?

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The standard reduction potential of Y³+ is -0.52 V.

Y(s) | Y³+(aq) || Ag+(aq) | Ag(s)

The cell potential is 1.32 V, which means that the standard cell potential (Eºcell) is also 1.32 V.

The half-reaction for the reduction of Ag+ to Ag is:

Ag+(aq) + e- → Ag(s) Eºred = +0.80 V

To calculate the standard reduction potential of Y³+, we need to use the Nernst equation:

Eºcell = Eºred,cathode - Eºred,anode

1.32 V = Eºred,Ag+ → Ag - Eºred,Y³+ → Y

Eºred,Y³+ → Y = Eºred,Ag+ → Ag - 1.32 V

Eºred,Y³+ → Y = 0.80 V - 1.32 V

Eºred,Y³+ → Y = -0.52 V

The Nernst equation is a fundamental equation in electrochemistry that relates the concentration of a species involved in a redox reaction to the potential difference across an electrochemical cell. It is named after German chemist Walther Nernst, who developed it in 1889. The Nernst equation is given by: E = E° - (RT/nF) ln(Q)

Where E is the cell potential, E° is the standard cell potential, R is the gas constant, T is the temperature in Kelvin, n is the number of electrons transferred in the reaction, F is Faraday's constant, and Q is the reaction quotient. The equation can be used to calculate the cell potential of a half-cell or the overall potential of a complete electrochemical cell. It is also useful in determining equilibrium constants for redox reactions.

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draw the conjugate base for the acid ch2=ch2 . draw all hydrogens. remember to include charges and non-bonding electrons where necessary.

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the conjugate base for ch2=ch2 is:

CH2=CH−

To draw the conjugate base for the acid CH2=CH2, follow these steps:

1. Identify the acid: CH2=CH2 is ethylene, which is a weak acid.

2. Remove a hydrogen: To form the conjugate base, we need to remove a hydrogen atom from ethylene. This leaves us with CH2=CH-.

3. Add a lone pair: Since we removed a hydrogen, the conjugate base now has an additional lone pair of electrons. The carbon atom that lost the hydrogen now has a lone pair.

4. Add charges: The removal of a hydrogen results in a negative charge on the conjugate base. So, the carbon atom with the lone pair will have a negative charge.

Therefore, The conjugate base for the acid CH2=CH2 is CH2=CH- with a lone pair on the negatively charged carbon atom.

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we mix 20 ml of 10 m hcl(aq) with 17 ml of 10 m koh(aq). if both solutions are initially at 85 ∘c, how much water boils away?hcl(aq) koh(aq)⟶h2o(l) kcl(aq)δrh∘=−57.3 kj/mol

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To determine the amount of water that boils away, we need to know the initial temperature of the solutions and calculate the amount of heat generated by the reaction and the heat required to raise the temperature of the solution and water to their boiling points.

The given chemical equation represents a neutralization reaction between hydrochloric acid (HCl) and potassium hydroxide (KOH) to form water ([tex]H_{2}O[/tex]) and potassium chloride (KCl).

The reaction is exothermic, and the enthalpy change is -57.3 kJ/mol, indicating that heat is released during the reaction.

When 20 mL of 10 M HCl is mixed with 17 mL of 10 M KOH, they react completely to form water and KCl. The reaction generates heat, causing the temperature of the solution to increase.

However, some of the water produced may boil away if the temperature exceeds its boiling point.

To determine how much water boils away, we need to calculate the amount of heat generated by the reaction and compare it to the heat required to raise the temperature of the solution and the water to their boiling points.

Without knowing the initial temperature of the solutions, it is difficult to estimate how much water would boil away. However, we can assume that if the temperature of the solution reaches 100 ∘C, then all the water produced will boil away.

In summary, to determine the amount of water that boils away, we need to know the initial temperature of the solutions and calculate the amount of heat generated by the reaction and the heat required to raise the temperature of the solution and water to their boiling points.

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which statement regarding the diffusion of materials between gas mixtures and aqueous solutions is false?

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The false statement regarding the diffusion of materials between gas mixtures and aqueous solutions is that gases and aqueous solutions diffuse at the same rate.

In reality, gases diffuse much more quickly than aqueous solutions due to the larger size and greater mass of the solute molecules in the solution. Another false statement regarding the diffusion of materials between gas mixtures and aqueous solutions is: "Diffusion rates are identical in both gas mixtures and aqueous solutions." In reality, diffusion occurs more rapidly in gas mixtures compared to aqueous solutions due to the greater average distance between particles and higher kinetic energy in gases.

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before any reaction occurs, the concentration of a in the reaction below is 0.028 m. what is the equilibrium constant if the concentration of a at equilibrium is 0.0098 m?

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The equilibrium constant for the reaction is 8.2.

What is the equilibrium constant?

The equilibrium constant (Kc) for a chemical reaction can be calculated using the concentrations of the reactants and products at equilibrium. The general form of the equation is:

[tex]Kc = [C]^c [D]^d / [A]^a [B]^b[/tex]

where [A], [B], [C], and [D] are the concentrations of reactants and products in the balanced chemical equation, and a, b, c, and d are the stoichiometric coefficients.

Assuming the reaction is:

aA + bB ⇌ cC + dD

And the initial concentration of A is 0.028 M, and the concentration of A at equilibrium is 0.0098 M, then we can calculate the equilibrium concentrations of B, C, and D using the stoichiometry of the reaction:

[tex][A] = 0.0098 M\\[B] = (0.028 M - aA) (assuming b = a) = 0.028 M - 0.0098 M = 0.0182 M\\[C] = cA = c (0.0098 M)\\[D] = dA = d (0.0098 M)[/tex]

Substituting these values into the expression for Kc:

[tex]Kc = [C]^c [D]^d / [A]^a [B]^b\\Kc = (c (0.0098))^c (d (0.0098))^d / (0.0098)^a (0.0182)^b[/tex]

If we assume that c = d = 1 and a = b = 2 (as in the reaction above), then:

[tex]Kc = (0.0098)^2 / (0.028 - 0.0098)^2\\Kc = 8.2[/tex]

Therefore, the equilibrium constant for the reaction is 8.2.

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Hexane and air enter the combustion chamber of a well insulated gas turbine engine at 25C. What amount of excess air will be required if the temperature of the products is to be limited to 825C?

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The  amount of excess air will be required if the temperature of the products is to be limited to 825C is  -6.731.This negative value means that we actually need less air than the stoichiometric amount to achieve a product temperature of 825C.

To determine the amount of excess air required for this combustion process, we need to use the stoichiometric equation for the combustion of hexane:
C₆H₁₄+ (19/2)O₂ → 6CO₂ + 7H₂O
This equation tells us that for every mole of hexane, we need 19/2 moles of oxygen (or air) to completely combust the fuel. However, if we want to limit the temperature of the products to 825C, we need to introduce excess air into the combustion chamber. This excess air will help to cool down the products of combustion and prevent them from reaching temperatures that could damage the turbine.
To calculate the amount of excess air required, we can use the equation:
Fuel + (actual air/fuel ratio) x (O₂ in air/stoichiometric O₂) x Air = Products


We know that the initial temperature of the hexane and air is 25C, and we want to limit the temperature of the products to 825C. Therefore, we can assume that the specific heat ratio of the products is constant at 1.4. We also know that the fuel being used is hexane, which has a molecular weight of 86 g/mol.
Using this information and the stoichiometric equation above, we can calculate the amount of excess air required as follows:
1. Calculate the stoichiometric air/fuel ratio:
(19/2) x 32/86 = 7.2
2. Calculate the actual air/fuel ratio required for a product temperature of 825C:
(T2/T1)[tex]^{0.4}[/tex] = (825 + 273)/(25 + 273) = 3.38
(actual air/fuel ratio) x 7.2 = 3.38
(actual air/fuel ratio) = 0.469
3. Calculate the amount of excess air required:
Air/Fuel ratio - Stoichiometric air/fuel ratio = Excess air/fuel ratio
0.469 - 7.2 = -6.731
Therefore, the answer to the question is that no excess air is required, and the stoichiometric amount of air (7.2 moles per mole of hexane) is sufficient to achieve the desired product temperature.

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a 135 g sample of carbon disulfide requires 43.2 kj of heat to vaporize completely. what is the enthalpy of vaporization for carbon disulfide?

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The enthalpy of vaporization for carbon disulfide is 0.32 kJ/g.

The enthalpy of vaporization (ΔHvap) for carbon disulfide can be calculated using the formula:

ΔHvap = q/m

Where q is the heat required to vaporize the sample and m is the mass of the sample.

Substituting the given values, we get:

ΔHvap = 43.2 kJ / 135 g

ΔHvap = 0.32 kJ/g

Therefore, the enthalpy of vaporization for carbon disulfide is 0.32 kJ/g.

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Gases in a Salt Marsh You measure appreciable CH4(g) and CO2 g) partial pressures in the sediment pore fluid and you want to know if there is equilibrium between these redox couples. The measured partial pressure of CO2(g) is 1.10 atm and the measured partial pressure of CH(g) is 5.10 atm in the pore fluid. You measure a redox potential (Eh) of pore-fluid water of El -0.1 V at pH 8.3 h using a platinum electrode and suitable reference electrode. Start by writing a balanced reduction reaction where CO2(g) is converted into CH4(g This is a calculation that employs the attached thermodynamic data. a) What ratio of partial pressures of CO2(g) and CH4(g) to you expect if the the Eh were a reliable guide to the equilibrium state of these two gases? b) Calculate a value of Eh from the ratio of the measured gas partial pressures. his will not agree with the previous answer.)

Answers

a) The expected ratio of partial pressures of CO₂(g) and CH₄(g) is 1.75 x 10^14.

b) The value of Eh from the ratio of the measured gas partial pressures is 0.27 V.

The balanced reduction reaction for the conversion of CO₂(g) to CH₄(g) is:

CO₂(g) + 4H⁺ + 4e⁻ -> CH₄(g) + 2H₂O

a) Using the thermodynamic data, we can calculate the equilibrium constant (K) for this reaction at the given conditions (pH 8.3 and El -0.1 V). From the table, we can see that ΔG° = -162.9 kJ/mol. Using the equation ΔG = -RTlnK, we can calculate K to be 1.76 x 10^14. This means that the ratio of the partial pressures of CH₄(g) to CO₂(g) at equilibrium is:

K = [CH₄(g)] / [CO₂(g)]
1.76 x 10^14 = [CH₄(g)] / 1.10 atm
[CH₄(g)] = 1.93 x 10^14 atm

Therefore, the expected ratio of partial pressures is:

[CH₄(g)] / [CO₂(g)] = 1.93 x 10^14 atm / 1.10 atm = 1.75 x 10^14

b) To calculate the Eh from the measured partial pressures of CO₂(g) and CH₄(g), we can use the Nernst equation:

Eh = E° + (RT/nF)ln(Q)

Where E° is the standard reduction potential (0.21 V for the reaction CO₂(g) + 4H⁺ + 4e⁻ -> CH₄(g) + 2H₂O), R is the gas constant, T is the temperature (assumed to be 25°C), n is the number of electrons transferred in the reaction (4), F is the Faraday constant, and Q is the reaction quotient.

Q = [CH₄(g)] / [CO₂(g)]
Q = 5.10 atm / 1.10 atm
Q = 4.64

Plugging in the values, we get:

Eh = 0.21 V + (0.0257 V/n) ln(4.64)
Eh = 0.21 V + 0.057 V
Eh = 0.27 V

Therefore, the calculated value of Eh from the measured gas partial pressures does not agree with the value of El -0.1 V measured using the platinum electrode and reference electrode. This suggests that the redox couples of CO₂(g) and CH₄(g) are not at equilibrium, and other factors may be influencing their partial pressures in the sediment pore fluid.

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what type of bond enables many water molecules to interact with one another, and also enables water molecules to dissolve polar or ionic substances?

Answers

coordinate covalent bond

what is the osmolarity of a solution if you were to dissolve 300 mmol of nacl into water to a final volume of 1 liter

Answers

The osmolarity of the solution is [tex]0.6 Osm/L.[/tex]

How to calculate osmolarity from the number of particles in a solution?

To calculate the osmolarity of a solution, we need to know the total number of particles (ions or molecules) in the solution, expressed in moles, and divide it by the volume of the solution in liters.

In this case, we dissolved 300 mmol of NaCl into 1 liter of water. NaCl dissociates in water to form two ions: Na+ and Cl-. Therefore, the total number of particles in the solution is 2 x 300 mmol = 600 mmol.

To convert mmol to moles, we divide by 1000:

600 mmol = 0.6 moles

Now we can calculate the osmolarity [tex](Osm)[/tex]of the solution:

[tex]Osm[/tex] = moles of particles / volume of solution

[tex]Osm = 0.6 moles / 1 liter = 0.6 Osm/L[/tex]

Therefore, the osmolarity of the solution is[tex]0.6 Osm/L.[/tex]

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Complete the following table with the the C-C-C bonds angles for each compound. Report Table MM. 1: Bond Angles Compound C-C-C Angle (straight chain or cyclic) Propane Butane Pentane Cyclopropane Cyclobutane Cyclopentane

Answers

Table MM. 1 shows the C-C-C bond angles for various organic compounds. The C-C-C bond angles vary depending on the geometry of the molecule, which can be either straight chain or cyclic.

For straight chain compounds such as propane, butane, and pentane, the bond angles are close to the ideal tetrahedral angle of 109.5 degrees. However, for cyclic compounds such as cyclopropane, cyclobutane, and cyclopentane, the bond angles deviate from the ideal tetrahedral angle due to the ring strain caused by the cyclic structure. Cyclopropane has a planar triangular structure with bond angles of 60 degrees, while cyclobutane and cyclopentane have bond angles of approximately 90 and 108 degrees, respectively.

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What concentration of SO2−3 is in equilibrium with Ag2SO3(s) and 2.50×10^−3 M Ag+?

Answers

The concentration of SO₃²⁻ in equilibrium with Ag₂SO₃(s) and 2.50×10⁻³ M Ag⁺ is 5.00×10⁻⁶ M.

The balanced equation for the dissolution of Ag₂SO₃(s) in water is:

Ag₂SO₃(s) ⇌ 2 Ag⁺(aq) + SO₃²⁻(aq)

The solubility product expression for Ag₂SO₃ is:

Ksp = [Ag⁺]² [SO₃²⁻]

At equilibrium, the product of the ion concentrations must equal the value of the solubility product constant, Ksp. Thus, we can use the given concentration of Ag⁺ and Ksp to calculate the concentration of SO₃²⁻:

Ksp = [Ag⁺]² [SO₃²⁻]

5.0×10⁻¹² = (2.50×10⁻³)² [SO₃²⁻]

[SO₃²⁻] = 5.0×10⁻⁶ M

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Water at 20c has a free stream velocity of 500 m/\ms determine the drag on the [;ates surface itf it has a width of 0.2 m

Answers

The drag force on the surface of the gate is approximately 59904 N.

The drag force on the surface of the gate can be determined using the given free stream velocity and width of the gate, assuming a few additional parameters.

The drag force, FD, on the gate surface can be calculated using the drag equation, FD = 0.5ρv²CdA, where ρ is the density of water, v is the free stream velocity, Cd is the drag coefficient, and A is the area of the gate surface.

Assuming a drag coefficient of 1.2 for a flat plate perpendicular to the flow and a density of water at 20°C of 998 kg/m³, the drag force can be calculated as:

FD = 0.5 x 998 kg/m³ x (500 m/s)² x 1.2 x 0.2 m = 59904 N

Therefore, the drag force on the surface of the gate is approximately 59904 N.

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the application of heat or acid to a protein that causes its shape to change is known as ____.

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The application of heat or acid to a protein that causes its shape to change is known as denaturation.

Denaturation is a process that alters the structure of a protein, leading to the disruption of its function. Proteins are complex molecules made up of long chains of amino acids that fold into intricate shapes, which are crucial for their biological activity.

The shape of a protein is determined by its amino acid sequence, as well as the environment in which it exists. External factors such as temperature and pH can affect the shape of a protein, leading to denaturation.

Denaturation can occur in a variety of ways, including exposure to high temperatures, extremes of pH, or certain chemicals. When a protein is denatured, its shape is disrupted, causing it to lose its biological activity. For example, the denaturation of enzymes can lead to their loss of function, resulting in a range of health problems.

Denaturation is an important process in many biological and industrial applications. In food processing, denaturation of proteins can be used to create desirable textures and flavors. In medicine, denaturation can be used to destroy disease-causing proteins. Understanding the process of denaturation is crucial for scientists and engineers in developing new therapies and products.

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which of the following are polar molecules. check all that apply. group of answer choices bf3 nh3 co co2 if2- h2o

Answers

The Polar molecules are NH3 (ammonia), CO, and H2O (water).

A polar molecule is formed when there is an uneven distribution of electrons between the atoms, resulting in partial charges.  NH3 has a polar covalent bond between nitrogen and hydrogen, and the molecule has a trigonal pyramidal shape. Nitrogen is more electronegative than hydrogen, which results in the molecule having a partial negative charge on nitrogen and a partial positive charge on the hydrogen atoms. This uneven distribution of electrons makes NH3 a polar molecule.

CO has a polar covalent bond between carbon and oxygen, but the molecule is linear in shape. The electronegativity difference between carbon and oxygen is small, resulting in a small dipole moment. Hence, CO is a polar molecule but has a lower polarity than NH3. H2O has two polar covalent bonds between hydrogen and oxygen, and the molecule has a bent shape. Oxygen is more electronegative than hydrogen, leading to a partial negative charge on oxygen and a partial positive charge on hydrogen atoms. As a result, H2O is a highly polar molecule with a significant dipole moment.

BF3 and CO2 have a symmetrical shape, and the polar bonds present cancel out the partial charges, resulting in a nonpolar molecule. IF2- is a linear molecule, but the electronegativity of iodine and fluorine is not significantly different, leading to a nonpolar molecule. In conclusion, NH3, CO, and H2O are the polar molecules out of the given options.

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Write a balanced equation for the complete oxidation of propanoic acid.

Answers

The complete oxidation of propanoic acid ([tex]CH3CH2COOH[/tex]) produces carbon dioxide ([tex]CO2[/tex]) and water ([tex]H2O[/tex]) as the only products. The balanced chemical equation for this reaction is: [tex]CH3CH2COOH + 4O2 → 3CO2 + 4H2O[/tex]

In this equation, the coefficients in front of each compound indicate the balanced stoichiometric ratio of reactants and products.

The coefficient of 1 in front of propanoic acid indicates that only one molecule of propanoic acid is required to react with four molecules of oxygen ([tex]O2[/tex]) to produce three molecules of carbon dioxide and four molecules of water.

The balanced equation ensures that the law of conservation of mass is satisfied, with the same number of atoms of each element present on both sides of the equation.

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A steel reaction vessel of a bomb calorimeter has a volume of 0.187 L, is charged with oxygen gas to a pressure of 83.3 atm at 14.2oC. Calculate the moles of oxygen in the reaction vessel.

Anwser:

Answers

Transparent reaction vessels allow workers to monitor effects at all times while securely containing reaction vessel.

Thus, The sturdy borosilicate glass containers won't break while being autoclaved for sterilization. To keep fluids evenly mixed, flat bottom types welcome the use of magnetic stirrers.

Jacketed containers keep the materials within the desired temperature range by cooling and controlling them. The reaction vessels come in a range of sizes and forms to accommodate any volume needed.

Any vessel that can contain chemical reactants and maintain the necessary physical conditions for a reaction to occur is a reaction vessel. The varieties of reaction vessels are numerous and extremely diverse.

Thus, Transparent reaction vessels allow workers to monitor effects at all times while securely containing reactant materials.

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as 4.49 kj/mol for k k entering the frog muscle cell. what does this numerical value signify about the physical process taking place?

Answers

The numerical value of 4.49 kj/mol for K entering the frog muscle cell signifies the amount of energy required for the process to take place.

In this case, it represents the amount of energy required or released per mole of potassium ions (K⁺) as they move across the cell membrane into the muscle cell. In other words, this value represents the activation energy required for K⁺ to enter the cell. This energy is necessary to overcome the energy barrier that exists between the extracellular space and the intracellular space. Therefore, the higher the activation energy, the more difficult it is for K⁺ to enter the cell, and vice versa.

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What is the heat energy needed to raise the temperature of 6 63moles of ethanol CH CHO from a temperature of 231 [CH,CH,OH-46.07g/mol) (CCHICHION-2.46J/gºC]) 241.6°C. The mass of 3.)

Answers

The heat energy needed to raise the temperature of 6.63 moles of ethanol from 231°C to 241.6°C is approximately 7492.286 J.

To calculate the heat energy required to raise the temperature of ethanol, we will use the following formula:

[tex]q = m * c * ΔT[/tex]

where q is the heat energy, m is the mass of the substance, c is the specific heat capacity, and ΔT is the change in temperature.

First, we need to calculate the mass of ethanol:

mass = moles * molar mass

mass = 6.63 moles * 46.07 g/mol

mass = 305.1 g

Now we can use the formula to calculate the heat energy:

[tex]q = m * c * ΔT\\q = 305.1 g * 2.46 J/gºC * (241.6°C - 231°C)\\\\[/tex]

q = 7492.286 J

Therefore, the heat energy needed to raise the temperature of 6.63 moles of ethanol from 231°C to 241.6°C is approximately 7492.286 J.

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For #10 - #13, determine the mass of the compound.
10. XeF4
11. C₂H4O
12. HgI
13. CuCN

Answers

Answer:10. XeF4

Explanation:A

what is the coordination number around the central metal atom in hexaaquachromium(iii) ([cr(h₂o)₆]³⁺)?

Answers

The coordination number around the central metal atom in hexaaquachromium(iii) ([cr(h₂o)₆]³⁺) is 6.

The coordination number of a complex ion refers to the number of ligands that are attached to the central metal ion. In the case of hexaaquachromium(III) ([Cr(H2O)6]3+), the formula tells us that there are six water ligands coordinated to the central chromium ion.

Each water molecule can donate two electron pairs to the chromium ion, one from the oxygen atom and another from the lone pair on the water molecule. Therefore, the coordination number around the chromium ion in [Cr(H2O)6]3+ is 6.

Therefore, the coordination number of the central metal atom in hexaaquachromium(III) ([Cr(H2O)6]3+) is 6.

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Which of the following statements best explains what happens if you increase the temperature of a gas inside a glass container?
A. As you increase the temperature of the gas the container itself will expand, causing the volume to increase. The larger volume of the
container means the gas particles have more space in which to move, which reduces the number of collisions. Fewer collisions results in a
lower pressure of the gas
B. If the container is rigid the volume of the container does not change (that is, the volume is constant). Since the volume of the gas does not
O change, Boyle's Laww tells us that the pressure of the gas will also not change because the equation P1V1=PZV2 does not depend on
temperature
C. As the temperature increases you are increasing the kinetic energy of the gas particles. As the gas particles move faster, they are more
Sikely to collide with the walls of the container. This increase in the number of collisions causes an increase in the pressure of the gas.
D. As you increase the temperature of the gas, the gas particles expand in size. Since each particle now occupies a larger volume, this means
the total gas also occupies a larger volume, which in tum increases the pressure.

Answers

Answer:D. As you increase the temperature of the gas, the gas particles expand in size. Since each particle now occupies a larger volume, this means the total gas also occupies a larger volume, which in tum increases the pressure.

Explanation:

Calculate ΔS∘rxn for this balanced chemical equation.

2NO(g)+O2(g)→2NO2(g)

Express your answer to one decimal place and include the appropriate units.

Answers

[tex]ΔS∘rxn[/tex] for this balanced chemical equation [tex]2NO(g) + O2(g) → 2NO2(g)[/tex] is 47.8 J/mol K.

To calculate ΔS∘rxn, we need to determine the change in entropy for the reaction. We can use the standard molar entropies of the reactants and products to calculate this.

The standard molar entropy of NO(g) is 210.8 J/mol K, the standard molar entropy of O2(g) is 205.0 J/mol K, and the standard molar entropy of NO2(g) is 239.9 J/mol K.

[tex]= [2S∘(NO2)] - [2S∘(NO) + S∘(O2)]= [2(239.9 J/mol K)] - [2(210.8 J/mol K) + 205.0 J/mol K] = 47.8 J/mol K[/tex]

Therefore, ΔS∘rxn for the reaction [tex]2NO(g) + O2(g) → 2NO2(g)[/tex]is 47.8 J/mol K.

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Assignment Score: 66.7% Resources Hint Resume Question 1 of 6 Question Classify the sources of radiation as occurring naturally in the environment or resulting from human activity. Naturally occurring Resulting from human activity Answer Bank medical X-ray smoke alarms internal anatomical radiation radon nuclear fuel cosmic rays

Answers

The sources of radiation can be classified into two categories: naturally occurring and resulting from human activity. Naturally occurring sources of radiation include cosmic rays, radon, and internal anatomical radiation. On the other hand, sources of radiation resulting from human activity include nuclear fuel and medical X-rays. Smoke alarms also contain small amounts of radiation, but they are not a significant source of radiation exposure.
Hi! I'd be happy to help you classify the sources of radiation. Here is the classification based on whether they occur naturally in the environment or result from human activity:

Naturally occurring:
1. Internal anatomical radiation
2. Radon
3. Cosmic rays

Resulting from human activity:
1. Medical X-ray
2. Smoke alarms
3. Nuclear fuel

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Which of the following salts is soluble in water ​

Answers

The salt that is soluble in water ​ is  K2CO3.

What happens to K2CO3 in water?

Solubility,  can be described as the degree to which a substance dissolves when it is been added to a solvent  so that a solution  can be made.

It shopuld be noted that thye Solubility of one fluid in another may be complete  and can be partial Potassium carbonate  can be regarded as a salt that is highly soluble in water and once it dissolves in water, this compound dissociates into potassium and carbonate ions which are the compnents.

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