Arrange the following compounds in order of decreasing acidity: Rank from most acidic to least acidic: To rank items a5 equivalent; overlap them: Reset Help CH3C = CH CH,COOH CHzNHz CH,CHz CH;SOzH CHzSH CH;OH Most acidic Least acidic The correct ranking cannot be determined

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Answer 1

The correct ranking cannot be determined. to determine the acidity of a compound, we need to compare the stability of the corresponding conjugate bases. However, the given compounds belong to different functional groups, and their corresponding conjugate bases differ in structure and stability.

Therefore, we cannot directly compare their acidities. Additionally, the position of substituents in the molecule can affect the acidity of the compound, making it difficult to determine a clear ranking. Therefore, we cannot establish a definitive ranking of the given compounds based on their acidity.

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Related Questions

Palmitic acid (C16H32O2) is a dietary fat found in beef and butter. The caloric content of palmitic acid is typical of fats in general.
A) Write a balanced equation for the complete combustion of solid palmitic acid. Use H2O(l) in the balanced chemical equation because the metabolism of these compounds produces liquid water.
B) Calculate the standard enthalpy of combustion. The standard enthalpy of formation of palmitic acid - 208kJ/mol.
C) What is the caloric content of palmitic acid in Cal/g?
D) Write a balanced equation for the complete combustion of table sugar (sucrose, C12H22O11). Use H2O(l) in the balanced chemical equation because the metabolism of these compounds produces liquid water.
E) Calculate the standard enthalpy of combustion. The standard enthalpy of formation of sucrose is - 2226.1kJ/mol.
F) What is the caloric content of sucrose in Cal/g?

Answers

A) The equation in balance for fully combusting solid palmitic acid is

16CO2 + 16H2O = C16H32O2 + 23O2

B) The following equation is used to compute the standard enthalpy of combustion:

Combustion is defined as the product of reactants and products.

where n is the stoichiometric factor and H°f is the standard enthalpy of formation.

Using the conventional enthalpies of production of carbon dioxide (-393.5 kJ/mol), water (-285.8 kJ/mol), and palmitic acid (reported as -208 kJ/mol), we can calculate:

H°combustion is equal to (16 mol) x (-393.5 kJ/mol) plus (16 mol) x (-285.8 kJ/mol). (-208 kJ/mol) is equal to -10,352.8 kJ/mol.

C) By dividing the enthalpy of combustion by the molar mass of palmitic acid and converting the result to calories per gramme, it is possible to determine the caloric content of palmitic acid:

Caloric content is calculated as follows: (-10,352.8 kJ/mol/256.42 g/mol) x (1000 cal/kJ) = -40.4 kcal/g

Palmitic acid has a caloric content of about 9.7 Cal/g as a result.

D) The balanced formula for table sugar's complete combustion (sucrose, C12H22O11) is:

12CO2 + 11H2O result from C12H22O11 + 12O2.

E) By combining the standard enthalpies of the creation of carbon dioxide and water with the stated standard enthalpy of sucrose formation (-2226.1 kJ/mol), we arrive at:

H°combustion is calculated as follows: (12 mol x (-393.5 kJ/mol)) + (11 mol x (-285.8 kJ/mol)) (-2226.1/mol) = -5635.1/mol

F) You can compute sucrose's caloric content in a manner similar to this:

Caloric content is calculated as follows: (16.5 kcal/g) = (-5635.7 kJ/mol/342.3 g/mol) x (1000 cal/kJ)

As a result, sucrose has a caloric value of about 3.9 Cal/g.

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A) Balanced equation for the complete combustion of solid palmitic acid:

C16H32O2 + 23 O2 → 16 CO2 + 16 H2O

B) The balanced equation tells us that 23 moles of O2 are required to combust 1 mole of palmitic acid. The standard enthalpy of combustion (ΔH°comb) can be calculated using the following formula:

ΔH°comb = (ΔH°f products) - (ΔH°f reactants)

Where ΔH°f is the standard enthalpy of formation. We can look up the values of ΔH°f for each compound involved in the balanced equation in a standard enthalpy of formation table. Substituting the values:

ΔH°comb = [16ΔH°f(CO2) + 16ΔH°f(H2O)] - ΔH°f(palmitic acid)

ΔH°comb = [(16 × -393.5 kJ/mol) + (16 × -285.8 kJ/mol)] - (-208 kJ/mol)

ΔH°comb = -10,357.6 + 208

ΔH°comb = -10,149.6 kJ/mol

C) The caloric content of palmitic acid can be calculated by dividing the enthalpy of combustion by the molar mass and converting to Cal/g (1 Cal = 4.184 kJ):

Caloric content = (-10,149.6 kJ/mol ÷ 256.4 g/mol) ÷ 4.184 kJ/Cal

Caloric content = 9.45 Cal/g

D) Balanced equation for the complete combustion of table sugar (sucrose):

C12H22O11 + 12 O2 → 12 CO2 + 11 H2O

E) The balanced equation tells us that 12 moles of O2 are required to combust 1 mole of sucrose. The standard enthalpy of combustion can be calculated using the same formula as before:

ΔH°comb = [12ΔH°f(CO2) + 11ΔH°f(H2O)] - ΔH°f(sucrose)

ΔH°comb = [(12 × -393.5 kJ/mol) + (11 × -285.8 kJ/mol)] - (-2226.1 kJ/mol)

ΔH°comb = -10,094.7 + 2226.1

ΔH°comb = -7,868.6 kJ/mol

F) The caloric content of sucrose can be calculated in the same way as before:

Caloric content = (-7,868.6 kJ/mol ÷ 342.3 g/mol) ÷ 4.184 kJ/Cal

Caloric content = 3.89 Cal/g

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D Question 19 1 pts PSII [Choose ] [ Choose ] PSI oxygen is a product provides energy to reduce NADP+ to NADPH ATP generation in chloroplast most abundant proteins in thylakoid membrane proton gradient needed Light-harvesting complexes [Choose]

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The correct answers are:

- PSII provides energy to reduce NADP+ to NADPH

- ATP generation occurs in the chloroplast

- The most abundant proteins in the thylakoid membrane are the light-harvesting complexes

PSII (Photosystem II) is responsible for capturing light energy and using it to generate ATP and reduce NADP+ to NADPH, which is an important energy carrier in photosynthesis. ATP is generated in the chloroplast during the light-dependent reactions, which occur in the thylakoid membrane. The thylakoid membrane contains numerous light-harvesting complexes, which are made up of pigments such as chlorophyll and carotenoids. These complexes absorb light energy and transfer it to the reaction center of PSII, where it is used to drive the electron transport chain and ultimately generate ATP.

Overall, PSII, ATP generation in the chloroplast, and light-harvesting complexes are all key components of the light-dependent reactions of photosynthesis, which convert light energy into chemical energy that can be used by the plant for growth and other processes.

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if asked to separate an equal mixture of benzoic acid (pka= 4.2) and 2 naphthol (pka=9.5) using a liquid-liquid extraction technique, explain why an aqueous solution of NaHCO3 (pka=6.4) would be far more effective than the stronger aqueous solution of NaOH (pka=15.7)

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Answer:An aqueous solution of NaHCO3 (sodium bicarbonate) is more effective than a stronger aqueous solution of NaOH (sodium hydroxide) in the separation of an equal mixture of benzoic acid and 2-naphthol because NaHCO3 has a pKa value of 6.4 which is closer to the pKa value of benzoic acid (4.2) than NaOH, which has a pKa value of 15.7. When an acid is added to a solution containing a conjugate base, the acid will react with the conjugate base to form the corresponding conjugate acid. By using NaHCO3, benzoic acid will be converted into its water-soluble sodium salt, while 2-naphthol will remain in the organic layer. Since NaOH is a stronger base, it will not be able to selectively convert benzoic acid to its sodium salt, and 2-naphthol will also be converted to its sodium salt.

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pwhixh ester hydolyzes more rapidly? a. phenyl acetate or benzyl acetate?b. methyl acetate or phenyl acetate?

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Phenyl acetate hydrolyzes more rapidly than benzyl acetate, while methyl acetate hydrolyzes faster than phenyl acetate.

The rate at which esters hydrolyze depends on the stability of the intermediate formed during the reaction.

In the case of phenyl acetate and benzyl acetate, phenyl acetate hydrolyzes more rapidly because it forms a more stable intermediate. The phenoxide ion produced is stabilized through resonance with the phenyl ring.

Comparing methyl acetate and phenyl acetate, methyl acetate hydrolyzes faster because the methyl group is less bulky, resulting in a more accessible carbonyl carbon for nucleophilic attack, which leads to a faster hydrolysis reaction.

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Benzyl acetate hydrolyzes more rapidly than phenyl acetate, and methyl acetate hydrolyzes more rapidly than phenylacetate. the correct answer is (a) benzyl acetate and (b) methyl acetate.

The rate of hydrolysis of an ester depends on several factors, including the size of the alkyl group attached to the carbonyl carbon and the electron density around the carbonyl group. In general, esters with larger alkyl groups attached to the carbonyl carbon undergo hydrolysis more slowly than those with smaller alkyl groups. This is because larger alkyl groups hinder the approach of water molecules to the carbonyl carbon, thus reducing the rate of hydrolysis.  Comparing the given options, benzyl acetate has a larger alkyl group than phenyl acetate, so it undergoes hydrolysis more rapidly. Similarly, methyl acetate has a smaller alkyl group than phenyl acetate, so it undergoes hydrolysis more rapidly. Therefore, the correct answer is (a) benzyl acetate and (b) methyl acetate.

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a sample of gas in a 252 ml container weighs 0.755 g at 750. torr and 25.5°c. what is its molar mass?

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the molar mass of the gas in the given sample, we can use the ideal gas law equation, PV = nRT, where P is the pressure in atm, V is the volume in liters, n is the number of moles, the molar mass of the gas is approximately 72.25 g/mol.


The pressure of 750. torr can be converted to atm by dividing by 760 torr/atm, giving us 0.987 atm. The volume of 252 ml can be converted to liters by dividing by 1000 ml/L, giving us 0.252 L. The temperature of 25.5°C can be converted to Kelvin by adding 273.15, giving us 298.65 K.

the molar mass of the gas in the sample is 68.0 g/mol. calculate the molar mass of a gas in a 252 mL container weighing 0.755 g at 750. torr and 25.5°C.Convert the volume to liters: 252 mL = 0.252 L
Convert temperature from Celsius to Kelvin: 25.5°C + 273.15 = 298.65 K

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b. would you expect the product (1-bromobutane) to dissolve in the aqueous layer in the separatory funnel? why?

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No, 1-bromobutane would not be expected to dissolve in the aqueous layer in the separatory funnel because it is not water-soluble. 1-bromobutane is an organic compound and is therefore hydrophobic, meaning it does not readily interact with water molecules.

The aqueous layer in the separatory funnel contains polar water molecules, which interact primarily through hydrogen bonding. Organic compounds are nonpolar and do not form hydrogen bonds with water. As a result, 1-bromobutane would remain in the organic layer and not dissolve in the aqueous layer.

The principle of liquid-liquid extraction is based on the differential solubility of compounds in two immiscible phases, and the immiscibility of 1-bromobutane in water makes it a good candidate for extraction with an organic solvent.

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Perform the following operation
and express the answer in
scientific notation.
7.00x10^5 – 5.00x10^4

[ ? ]x10^[?]

Answers

To perform the given operation and express  in scientific notation, need to subtract 5.00x10^4 from 7.00x10^5.

Step 1: Perform the subtraction:

7.00x10^5 - 5.00x10^4 = 700,000 - 50,000 = 650,000Step 2: Determine the appropriate scientific notation for the result.

The result, 650,000, can be expressed in scientific notation as 6.50x10^5.

To represent this in the requested format, we need to determine the exponent and adjust the coefficient accordingly.

The original coefficient, 6.50, can be written as 6.50x10^5.

Therefore, the answer in scientific notation is 6.50x10^5.

The simplest approach to express a huge value is with scientific notation. In scientific notation, a number is divided into two pieces.

 The numbers (the decimal point will come after the first number)

 10 (the power that positions the decimal point correctly)

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Which of these square planar complex ions can have cis-trans isomers? O A. [Pt(NH3)412+ B. [Pt(NH3)2C12] O C. [Ni(NH3)412+ OD. [Ni(NH3)3Cl]* O E. [Pt(NH3)C13]

Answers

The complex ions that can have cis-trans isomers are [Pt(NH3)2Cl2] and [Pt(NH3)Cl3]. Among the given square planar complex ions, the one that can have cis-trans isomers is B. [Pt(NH3)2Cl2]. This complex ion has different ligands which allow for geometric isomerism, with cis and trans isomers based on the arrangement of ligands around the central atom.

This question requires a long answer as we need to analyze each complex ion individually to determine if they can have cis-trans isomers. A cis-trans isomerism occurs when two ligands in a coordination complex are arranged differently around the central metal atom. For square planar complexes, this is possible when there are two sets of identical ligands and two of them are adjacent to each other. This complex ion has four identical ammonia ligands arranged in a square planar geometry around the platinum atom. Since there are no other ligands present, there is no possibility of cis-trans isomerism.

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click in the answer box to activate the palette. give the formula of the conjugate base of h2co3.

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The formula for the conjugate base of H2CO3 is HCO3-, which is a weak base that acts as a buffer in the blood to help maintain a stable pH.

To activate the palette, simply click in the answer box. The conjugate base of H2CO3 can be found by removing one hydrogen ion (H+) from each of the two acidic protons in H2CO3. This results in the formation of the bicarbonate ion, HCO3-.

The formula for the conjugate base of H2CO3, or bicarbonate ion, is HCO3-. This ion is formed when one H+ ion is removed from each of the two acidic protons in H2CO3. Bicarbonate is a weak base and acts as a buffer in the blood, helping to maintain a stable pH. It is an important component of the carbon dioxide-bicarbonate buffer system, which plays a crucial role in regulating the pH of the blood. When the blood becomes too acidic, bicarbonate acts as a base and accepts excess H+ ions, thereby raising the pH. Conversely, when the blood becomes too basic, carbonic acid (H2CO3) is formed and releases H+ ions, thereby lowering the pH.

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arrange the following elements in order of increasing electronegativity: carbon, nitrogen, boron, oxygen

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The elements arranged in increasing electronegativity are: boron, carbon, nitrogen, oxygen.

Explanation: Electronegativity is the tendency of an atom to attract electrons towards itself when it forms a chemical bond. Boron has the lowest electronegativity value among the given elements, followed by carbon, nitrogen, and oxygen. This is because electronegativity increases as we move from left to right across a period in the periodic table, and decreases as we move down a group. Boron is located in group 13 and period 2, while oxygen is located in group 16 and period 2. Therefore, oxygen has the highest electronegativity value among the given elements. Nitrogen has a slightly higher electronegativity than carbon because it is located further to the right in the same row of the periodic table.

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true/false. polyprotic acid second k value less

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Answer:The statement "polyprotic acid second k value less" is incomplete and unclear. Please provide the complete statement so I can accurately determine if it is true or false.

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Consider a galvanic cell based in the reaction Fe2. cr02--> Fe3+ + Cr3+ in acidic solution. Balance the equation and calculate the voltage of the standard cell carrying out this reaction

Answers

The balanced reaction for the galvanic cell based on the given equation is as follows:
Fe2+ + Cr2O72- + 14H+ → Fe3+ + 2Cr3+ + 7H2O
The voltage of the standard cell carrying out the given reaction is -0.559 V.

To calculate the voltage of the standard cell carrying out this reaction, we need to use the Nernst equation:
Ecell = E°cell - (RT/nF) ln(Q)
where Ecell is the voltage of the cell, E°cell is the standard cell potential, R is the gas constant, T is the temperature, n is the number of electrons transferred in the reaction, F is the Faraday constant, and Q is the reaction quotient.
For this reaction, n = 6 (since 6 electrons are transferred), T = 298 K, R = 8.314 J/K mol, and F = 96,485 C/mol. The standard cell potential can be calculated using the standard reduction potentials of the half-reactions involved in the cell reaction.
Fe3+ + e- → Fe2+  E° = +0.771 V
Cr2O72- + 14H+ + 6e- → 2Cr3+ + 7H2O  E° = +1.33 V
The standard cell potential can be calculated as:
E°cell = E°reduction (reduced species) - E°reduction (oxidized species)
E°cell = E°(Fe2+/Fe3+) - E°(Cr2O72-/Cr3+)
E°cell = (+0.771 V) - (+1.33 V)
E°cell = -0.559 V
Now, we need to calculate the reaction quotient (Q) for the given reaction. The reaction quotient is calculated using the concentrations of the species involved in the reaction.
Q = [Fe3+][Cr3+] / [Fe2+][Cr2O72-]
Assuming standard conditions, the concentration of each species is 1 M.
Q = (1)(1) / (1)(1)
Q = 1
Finally, we can calculate the voltage of the cell using the Nernst equation.
Ecell = E°cell - (RT/nF) ln(Q)
Ecell = -0.559 V - (8.314 J/K mol * 298 K / (6 * 96,485 C/mol)) ln(1)
Ecell = -0.559 V
Therefore, the voltage of the standard cell carrying out the given reaction is -0.559 V.

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construct normalized hybrid bonding orbitals on the central oxygen in h2oh2o that are derived from 2s2s and 2p2p atomic orbitals. the bond angel of ozone is (θ=116.8°)

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Hybrid bonding orbitals on central oxygen in H2O derived from 2s2s and 2p2p atomic orbitals with bond angle of 116.8°.



To construct normalized hybrid bonding orbitals on the central oxygen in H2O, we need to combine the 2s and 2p atomic orbitals.

The two 2s orbitals will combine to form a new hybrid orbital, which will be called the 2sp hybrid orbital.

Similarly, the two 2p orbitals will combine to form two new hybrid orbitals, which will be called the 2p-sp2 hybrid orbitals.

These hybrid orbitals will have different energy levels and shapes than the original atomic orbitals.

The bond angle of H2O is 104.5°, but the bond angle of Ozone is 116.8° due to the different hybridization of the central oxygen atom.

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Normalized hybrid bonding orbitals on the central oxygen in H2O are derived from 2s and 2p atomic orbitals.

The bond angle of water is approximately 104.5° due to sp3 hybridization. However, for O3, which has a bond angle of 116.8°, the hybridization involves both 2s and 2p orbitals. The hybridization scheme for O3 involves mixing the 2s and two of the 2p orbitals to form three sp2 hybrid orbitals with one unhybridized 2p orbital. The three sp2 hybrid orbitals are oriented in a trigonal planar arrangement with a bond angle of approximately 120°. The unhybridized 2p orbital is perpendicular to the plane of the sp2 hybrid orbitals and forms a pi bond with the adjacent oxygen atom. Overall, the hybridization scheme for O3 allows for the formation of a bent molecular geometry with a bond angle of 116.8°, which is consistent with the observed experimental value.

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A container measures 2. 50 cm x 10. 1cm x 12. 2cm. When it is full of a liquid,


it has a mass of 8501g. When it is empty, it has a mass of 682g. What is the


density of the liquid in grams per cubic centimeter?

Answers

The density of the liquid in the container is 25.45 grams per cubic centimetre which can be calculated by finding the difference in mass between the full and empty container and dividing it by the volume of the container.

To calculate the density of the liquid in the container, we need to find the difference in mass between the full and empty container. The mass of the liquid can be obtained by subtracting the mass of the empty container from the mass of the full container: 8501g - 682g = 7819g.

Next, we need to calculate the volume of the container. The volume of a rectangular container can be determined by multiplying its length, width, and height: [tex]2.50 cm * 10.1 cm * 12.2 cm = 306.95 cm^3.[/tex]

Finally, we can calculate the density by dividing the mass of the liquid by the volume of the container: [tex]7819g / 306.95 cm^3 = 25.45 g/cm^3.[/tex]

Therefore, the density of the liquid in the container is 25.45 grams per cubic centimetre.

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Why is it possible to set the energy of the ground vibrational and electronic energy level to zero?
Answer choices: The energy of the ground state can be set to zero since it is the relative energy of the levels that is important in determination of quantities such as occupation probabilities.
The energy of the ground state can be set to zero because the second derivative of the partition function is equal to zero.
The energy of the ground state can be set to zero because the partition function cannot be constructed without setting the ground-state energy to zero.
The energy of the ground state can be set to zero because the amount of thermal energy available to any system is much greater than the energy of the ground state.

Answers

The energy of the ground state can be set to zero because it is a reference point for calculating energy differences.

Setting the energy of the ground vibrational and electronic energy level to zero is a common convention in quantum mechanics and statistical thermodynamics. This is because it is the relative energy differences between states that are important in determining physical quantities such as partition functions and thermodynamic properties. By setting the energy of the ground state to zero, all other energies can be expressed as positive values relative to this reference point.

Additionally, the partition function, which describes the distribution of energy among quantum states, cannot be constructed without assuming that the ground state has zero energy. This convention simplifies calculations and allows for a better understanding of energy differences between states. Ultimately, the choice to set the ground state energy to zero is a matter of convention and convenience, but it is a fundamental aspect of modern quantum mechanics and thermodynamics.

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determine the radius of the smallest bohr orbit in the doubly ionized lithium. what is the energy of this orbit?

Answers

The radius of the smallest Bohr orbit in doubly ionized lithium is 5.29 x 10^-12 m and the energy of this orbit is -13.6 eV.

The radius of the smallest Bohr orbit in doubly ionized lithium can be determined using the formula for the radius of the nth orbit in a hydrogen-like atom. For a doubly ionized lithium, the atomic number is 3, and the number of electrons is 1. Therefore, the radius of the smallest Bohr orbit can be calculated as:

r = (n^2*h^2)/(4π^2*m*e^2)

where n is the principal quantum number, h is Planck's constant, m is the reduced mass of the electron and nucleus, and e is the charge of the electron.

For the smallest orbit (n=1), the radius of the orbit is:

r = (1^2*(6.626 x 10^-34 J s)^2)/(4π^2*(9.109 x 10^-31 kg + 6.941 x 1.661 x 10^-27 kg)*(1.602 x 10^-19 C)^2)

r = 5.29 x 10^-12 m

The energy of this orbit can be calculated using the formula:

E = (-13.6 eV)/n^2

where n is the principal quantum number. For the smallest orbit (n=1), the energy of the orbit is:

E = (-13.6 eV)/1^2

E = -13.6 eV

Therefore, the radius of the smallest Bohr orbit in doubly ionized lithium is 5.29 x 10^-12 m and the energy of this orbit is -13.6 eV.

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For a diprotic weak acid H2A, Ka1 = 2.8 x 10-5 and Ka2 = 6.4 x 10-7. What is the pH of a 0.065 M solution of H2A?

Answers

The pH of a 0.065 M solution of the diprotic weak acid H₂A with Kₐ₁ = 2.8 x 10⁻⁵ and Kₐ₂ = 6.4 x 10⁻⁷ is 2.72.

To solve this problem, we need to calculate the concentrations of H₂A, HA⁻, and A²⁻ at equilibrium, and then use the equilibrium concentrations to calculate the pH of the solution.

First, let's write the two acid dissociation reactions and their corresponding equilibrium constants:

H₂A ⇌ H⁺ + HA⁻ Kₐ₁ = [H⁺][HA⁻]/[H₂A]

HA⁻ ⇌ H⁺ + A²⁻ Kₐ₂ = [H⁺][A²⁻]/[HA⁻]

Next, we need to use the initial concentration of H₂A (0.065 M) and the equilibrium constants to calculate the equilibrium concentrations of H₂A, HA⁻, and A²⁻. We can assume that x mol/L of H₂A dissociates to form x mol/L of HA⁻ and x mol/L of A²⁻, since the initial concentration of H₂A is much greater than the equilibrium concentrations of HA⁻ and A²⁻.

Using these assumptions, we can write expressions for the equilibrium concentrations of H₂A, HA⁻, and A²⁻ in terms of x:

[H₂A] = 0.065 - x

[HA⁻] = x

[A²⁻] = x

We can then use the equilibrium constants to write expressions for [H⁺], in terms of x:

Kₐ₁ = [H⁺][HA⁻]/[H₂A] = x²/(0.065 - x)

Kₐ₂ = [H⁺][A²⁻]/[HA⁻] = x²/[HA⁻]

Now, we can use the fact that the solution is neutral (i.e., [H⁺] = [OH⁻]) to write an expression for Kₑq (the ion product constant of water):

Kₑq = [H⁺][OH⁻] = 1.0 x 10⁻¹⁴

Since the pH is defined as -log[H⁺], we can solve for the pH by taking the negative logarithm of [H⁺]:

pH = -log[H⁺]

Putting all of this together, we get:

Kₐ₁ = [H⁺][HA⁻]/[H₂A] = x²/(0.065 - x) = 2.8 x 10⁻⁵

Kₐ₂ = [H⁺][A²⁻]/[HA⁻] = x²/[HA⁻] = 6.4 x 10⁻⁷

Kₑq = [H⁺][OH⁻] = 1.0 x 10⁻¹⁴

Solving these equations simultaneously yields x = 6.07 x 10⁻⁴ M, which is the concentration of H⁺ in the solution. Therefore, the pH of the solution is pH = -log(6.07 x 10⁻⁴) = 2.72.

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How would a sedimentary rock become a metamorphic rock?

Answers

Metamorphism is the process through which sedimentary rocks become metamorphic rocks. Metamorphism is the process through which rocks change shape owing to changes in temperature, pressure, and chemical environment.

This process can occur in the presence or absence of fluids, such as water. The mineralogy of the rock changes during metamorphism, and new minerals emerge as current minerals recrystallize. Furthermore, the texture of the rock shifts from coarse-grained to fine-grained, and the structure shifts from layered to foliated.

This metamorphism process can take a long time and can be driven by tectonic pressures such as mountain-building episodes or the collision of tectonic plates.

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A sample of hydrogen gas is collected by water displacement at 20.0 degrees celcius. when the atmospheric pressure is 99.8 kPa. What is the pressure of the dry hydrogen, if the partial pressure of water vapour is 2.33 kPa at that temperature?

Answers

The pressure of the dry hydrogen gas is 97.47 kPa.

The total pressure in the collection flask is the sum of the partial pressures of the dry hydrogen gas and the water vapor.

Using Dalton's law of partial pressures, the partial pressure of the dry hydrogen gas can be calculated by subtracting the partial pressure of water vapor from the total pressure.

[tex]P(dry H2) = P(total) - P(H2O) = 99.8 kPa - 2.33 kPa = 97.47 kPa.[/tex]

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draw the lewis structure. depict the vsepr theory geometry, and indicate the polority of the following molecules clf3, clf4-, clf2 , xef5- if4

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The VSEPR theory geometry for XeF5- would be square pyramidal, with a bond angle of 90 degrees. The molecule is polar due to the asymmetrical distribution of the XeF5- molecule.

To draw the Lewis structure for each molecule, we need to first count the total number of valence electrons in each atom. Chlorine (Cl) has 7 valence electrons and Fluorine (F) has 7 valence electrons, and Xenon (Xe) has 8 valence electrons.
For the molecule ClF3, we have a total of 28 valence electrons. The Lewis structure would look like:

                   Cl
                  /  \
                F    F
                 \   /
                   Cl

The VSEPR theory geometry for ClF3 would be trigonal bipyramidal, with a bond angle of 120 degrees. The molecule is polar due to the asymmetrical distribution of the ClF3 molecule, which results in a dipole moment.
For the ClF4- molecule, we would add an extra electron to the total valence electrons to account for the negative charge, giving us a total of 32 valence electrons. The Lewis structure would look like:

                    Cl
                   / \
                 F   F
                |     |
                 F   F
                   \ /
                    Cl-

The VSEPR theory geometry for ClF4- would be square planar, with a bond angle of 90 degrees. The molecule is nonpolar due to the symmetrical distribution of the ClF4- molecule.
For the ClF2 molecule, we have a total of 20 valence electrons. The Lewis structure would look like:

                   Cl
                   |
                 F    F

The VSEPR theory geometry for ClF2 would be linear, with a bond angle of 180 degrees. The molecule is polar due to the asymmetrical distribution of the ClF2 molecule.
For the XeF5- molecule, we would add an extra electron to the total valence electrons to account for the negative charge, giving us a total of 42 valence electrons. The Lewis structure would look like:

                     F
                    / \
               F - Xe - F
                    \ /
                     F
                      -

The VSEPR theory geometry for XeF5- would be square pyramidal, with a bond angle of 90 degrees. The molecule is polar due to the asymmetrical distribution of the XeF5- molecule.

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Predict the major product for the reaction. The starting material is an alkene where carbon 1 has a cyclohexyl and methyl substituent, and carbon 2 has a methyl and hydrogen substituent. This reacts with C l 2 in the presence of ethanol. Draw the major product.

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The major product of the reaction will be the 1,2-dichloroalkane .

The reaction is likely a halogenation reaction, where the alkene reacts with [tex]Cl_2[/tex] in the presence of ethanol as a solvent. Specifically, the double bond in the starting material will undergo electrophilic addition to one of the chlorine atoms, forming a carbocation intermediate. This intermediate can then undergo a nucleophilic attack by the chloride ion, resulting in substitution of the original double bond with a new carbon-chlorine bond.

In this case, the major product of the reaction will be the 1,2-dichloroalkane, where both carbons of the original double bond have been replaced with chlorine atoms.  

The reaction can be represented as follows:

[tex]CH_3[/tex]
  |
[tex]CH_3C[/tex] -- [tex]CH(C_6H_1_1)Cl[/tex] + [tex]Cl_2[/tex] + EtOH → [tex]CH_3C[/tex] --[tex]CH(C_6H_1_1)Cl_2[/tex] + HCl + EtOH
  |
 H

Therefore, The cyclohexyl and methyl substituents on carbon 1 and the methyl and hydrogen substituents on carbon 2 will remain unchanged in the final product. Hence, the major product of the reaction will be the 1,2-dichloroalkane .

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Balance:
CrO42- + Fe2+ >>> Cr3+ + Fe3+
in acidic solution
MnO4- + ClO2- >>>MnO2 + ClO4-
in basic solution

Answers

The balanced equations are:

CrO₄²⁻ + 8H⁺ + 3Fe²⁺ → Cr³⁺ + 3Fe³⁺ + 4H₂O

MnO⁻₄ + ClO⁻₂ + 2OH⁻ + 2H⁺ + 2e⁻ → MnO₂ + ClO⁻₄ + H₂O

To balance the given chemical equations, we need to ensure that the number of atoms of each element is equal on both the reactant and product sides of the equation. We can achieve this by adding coefficients to each species as necessary.

CrO₄²⁻ + Fe²⁺ → Cr³⁺ + Fe³⁺

We can start by balancing the oxygen atoms by adding water molecules:

CrO₄²⁻ + Fe²⁺ + 8H⁺ → Cr³⁺ + Fe³⁺ + 4H₂O

Next, we balance the hydrogen atoms by adding hydrogen ions:

CrO₄²⁻ + Fe²⁺ + 8H⁺ → Cr³⁺ + Fe³⁺ + 4H₂O

Finally, we balance the charges by adding electrons to the appropriate side:

CrO₄²⁻ + 8H⁺ + 3e⁻ + Fe²⁺ → Cr³⁺ + Fe³⁺ + 4H₂O

The balanced equation is:

CrO₄²⁻ + 8H⁺ + 3Fe²⁺ → Cr³⁺ + 3Fe³⁺ + 4H₂O

MnO⁻₄ + ClO⁻₂ → MnO₂ + ClO⁻₄

This reaction takes place in a basic solution, which means we need to start by adding hydroxide ions (OH⁻) to balance the equation:

MnO⁻₄ + ClO⁻₂ + OH⁻ → MnO₂ + ClO⁻₄

Next, we balance the oxygen atoms by adding water molecules:

MnO⁻₄ + ClO⁻₂ + OH⁻ → MnO₂ + ClO⁻₄ + H₂O

We can now balance the hydrogen atoms by adding hydrogen ions:

MnO⁻₄ + ClO⁻₂ + OH⁻ + H⁺ → MnO₂ + ClO⁻₄ + H₂O

Finally, we balance the charges by adding electrons to the appropriate side:

MnO⁻₄ + ClO⁻₂ + 2OH⁻ + 2H⁺ + 2e⁻ → MnO₂ + ClO⁻₄ + H₂O

The balanced equation is:

MnO⁻₄ + ClO⁻₂ + 2OH⁻ + 2H⁺ + 2e⁻ → MnO₂ + ClO⁻₄ + H₂O

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Tap on the reaction that will happen at the cathode when a current is passed through an aqueous solution of sodium chloride. 0V (iii) 2H+ (aq) + 2e H (9) (iv) 2H2O(l) + 2e → H2(g) + 2OH(aq) (v) Nat (aq) + e Na(s) Eethode E Eethode cathode -0.8277 V -2.71 V

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The reaction that will happen at the cathode when a current is passed through an aqueous solution of sodium chloride is: Na+(aq) + e- → Na(s)

This is because sodium has a lower reduction potential than hydrogen or hydroxide ions, so it will be preferentially reduced at the cathode. The reduction potential of sodium is -2.71 V, which is lower than both hydrogen (-0.8277 V) and hydroxide ions (-0.83 V). Therefore, sodium ions will be reduced to form sodium metal at the cathode.

Redox potential is a measure of the tendency of a chemical species to acquire electrons from or lose electrons to an electrode and thereby be reduced or oxidized respectively. It is expressed in volts (V).

Cathode, negative terminal or electrode through which electrons enter a direct current load, such as an electrolytic cell or an electron tube, and the positive terminal of a battery or other source of electrical energy through which they return.

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separate the redox reaction into its component half‑reactions. o2 4li⟶2li2o use the symbol e− for an electron.

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Therefore, the two half-reactions are: Oxidation half-reaction: Li → Li+ + e and Reduction half-reaction: O2 + 4e- → 2O2-

The chemical equation presented is:

2Li2O + 4Li2O

In this situation, oxygen in Li2O is reduced from O2 to O2-, whereas lithium in Li2O is oxidised from Li to Li+.

As a result, the oxidation half-reaction is:

Li → Li+ + e-

This half-reaction depicts the oxidation of lithium, which loses one electron and so becomes Li+.

The decrease half-reaction is as follows:

O2 + 4e- → 2O2-

This half-reaction depicts the reduction of oxygen, which gains four electrons and so becomes O2-.

To ensure that the number of electrons lost in the oxidation half-reaction equals the number of electrons acquired in the reduction half-reaction, we must ensure that the number of electrons gained in the reduction half-reaction.

By multiplying the oxidation half-reaction by 4, we may balance the electrons:

4Li → 4Li+ + 4e-

The loss of four electrons in the oxidation half-reaction is equal to the gain of four electrons in the reduction half-reaction.

When these half-reactions are added together, the entire balanced equation is:

2Li2O = 4Li + O2

As a result, the two half-reactions are:

Half-reaction of oxidation: Li Li+ + e-

O2 + 4e- 2O2- reduction half-reaction

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Half-reaction for oxidation:

O2 + 4e- -> 2O2-Half-reaction for reduction:

4Li+ + 4e- -> 2Li2+Explanation:

The given chemical equation can be split into two half-reactions, oxidation and reduction. In the oxidation half-reaction, O2 gains electrons and is reduced to form O2-. In the reduction half-reaction, Li+ ions lose electrons and are oxidized to form Li2+ ions. These half-reactions help in understanding the transfer of electrons and the changes in oxidation states that occur during the redox reaction.

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The mass of nitrosyl chloride (NOCl) that occupies a volume of 0. 2570 L at a temperature of 325 K and a pressure of 113. 0 kPa is:

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The mass of nitrosyl chloride (NOCl) occupying a volume of 0.2570 L at a temperature of 325 K and a pressure of 113.0 kPa is approximately 0.229 grams.

To determine the mass of nitrosyl chloride (NOCl) occupying a volume of 0.2570 L at a temperature of 325 K and a pressure of 113.0 kPa, we can use the ideal gas law equation, PV = nRT.

First, let's convert the given pressure to atmospheres (1 kPa ≈ 0.00987 atm):

Pressure = 113.0 kPa * 0.00987 atm/kPa ≈ 1.115 atm.

Next, we need to convert the volume to liters:

Volume = 0.2570 L.

The gas constant (R) is 0.0821 L·atm/(mol·K).

Now we can use the ideal gas law to calculate the number of moles (n) of NOCl:

n = (Pressure * Volume) / (R * Temperature)

= (1.115 atm * 0.2570 L) / (0.0821 L·atm/(mol·K) * 325 K)

= 0.0035 mol.

Finally, we can determine the mass of NOCl using the molar mass of NOCl, which is 65.46 g/mol:

Mass = n * Molar mass

= 0.0035 mol * 65.46 g/mol

= 0.229 g.

Therefore, the mass of nitrosyl chloride (NOCl) occupying a volume of 0.2570 L at a temperature of 325 K and a pressure of 113.0 kPa is approximately 0.229 grams.

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consider the following reaction and its δ∘ at 25.00 °c. 2ag (aq) cu(s)⟶2ag(s) cu2 (aq)δ∘=−88.66 kj/mol calculate the standard cell potential, ∘cell, for the reaction.

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The standard cell potential, ∘cell, for the reaction is 0.46 V.

To calculate the standard cell potential (∘cell), we use the equation ∘cell = ∘red, cathode - ∘red, anode, where ∘red is the standard reduction potential of the half-reaction. From the given reaction, the reduction half-reaction is:

Ag+ (aq) + e- → Ag(s) ∘red = +0.80 V

And the oxidation half-reaction is:

Cu(s) → Cu2+ (aq) + 2 e- ∘red = -0.34 V

Substituting the values into the equation, we get:

∘cell = +0.80 V - (-0.34 V) = 1.14 V

However, since the given reaction is the reverse of the spontaneous reaction, we need to reverse the sign of the ∘cell value to get the correct answer. Therefore,

∘cell = -1.14 V

To convert this value to kilojoules per mole (kJ/mol), we use the equation:

∆G = -nF∘cell

Where n is the number of moles of electrons transferred in the reaction, and F is the Faraday constant (96,485 C/mol).

Since 2 moles of electrons are transferred in the reaction, we have:

∆G = -2 * 96485 C/mol * (-1.14 V) = +208,583 J/mol = +208.58 kJ/mol

Therefore, the standard cell potential (∘cell) for the given reaction is -1.14 V and the standard free energy change (∆G) is +208.58 kJ/mol.

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Calculate the volume that 38.8 g of CO2 occupies at 725 mmHg and 25.0°C.

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The volume is 30.9 mL that 38.8 g of CO2 occupies at 725 mmHg and 25.0°C.

To calculate the volume that 38.8 g of CO2 occupies at 725 mmHg and 25.0°C, we first need to use the ideal gas law equation, PV=nRT.
We can rearrange this equation to solve for volume: V=nRT/P.
We know the pressure is 725 mmHg and the temperature is 25.0°C, which is 298.15 K. We also need to determine the number of moles of CO2 present. To do this, we can use the molar mass of CO2, which is 44.01 g/mol.
38.8 g of CO2 is equal to 0.881 mol of CO2 (38.8 g / 44.01 g/mol).
Plugging in all of our values into the equation, we get: V = (0.881 mol x 0.08206 L·atm/mol·K x 298.15 K) / 725 mmHg.
Converting mmHg to atm, we get 0.954 atm.
Solving the equation, we get V = 0.0309 L, which is equivalent to 30.9 mL.
Therefore, 38.8 g of CO2 occupies a volume of 30.9 mL at 725 mmHg and 25.0°C.

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The rate of decomposition of PH3 was studied at 930 degree C. The rate constant was found to be 00375s^-1. If the reaction is begun with an initial PH3 concentration of 0.95 M, what will be the concentration of PH3 after 26.0 s?

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The concentration of PH3 after 26.0 s will be approximately 0.3584 M.

To determine the concentration of PH3 after 26.0 s, given the rate of decomposition, rate constant, and initial concentration, we will use the first-order reaction equation:
ln [PH3]t/[PH3]0 = -kt ,

where [PH3]t is the concentration of PH3 at time t, [PH3]0 is the initial concentration of PH3, k is the rate constant, and t is time.
Concentration at time t (C_t) = C_initial * e^(-k * t),

where C_initial is the initial concentration, k is the rate constant, and t is the time in seconds.

1. The rate of decomposition of PH3 is given as a first-order reaction.
2. The initial concentration of PH3 (C_initial) is 0.95 M.
3. The rate constant (k) is 0.0375 s^-1.
4. The time (t) is 26.0 s.

Now we will plug these values into the equation:

C_t = 0.95 * e^(-0.0375 * 26.0)

C_t ≈ 0.95 * e^(-0.975)

C_t ≈ 0.95 * 0.3773

C_t ≈ 0.3584 M

Therefore, the concentration of PH3 after 26.0 s will be approximately 0.3584 .

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Fill in the blanks: The first statement is ____because gases have ___ average kincetic energy at the same temperature

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The first statement is true because gases have equal average kinetic energy at the same temperature.

At a given temperature, regardless of the type of gas, the average kinetic energy is the same for all.

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give the electron configuration for nitrogen. a. a) 1s22s22p1 b. b) 1s22s22p4 c. c) 1s22s22p2 d. d) 1s22s22p3 e. e) 1s22s22p5

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The correct electron configuration for nitrogen is option D, which is 1s22s22p3

The correct electron configuration for nitrogen is option D, which is 1s22s22p3. To explain this configuration, we need to understand the basic structure of an atom. An atom consists of a nucleus made up of protons and neutrons, surrounded by electrons orbiting in shells or energy levels. The first shell can hold up to 2 electrons, the second can hold up to 8, and the third can hold up to 18.
Nitrogen has 7 electrons, so we start by placing 2 electrons in the first shell, which is the 1s orbital. Then, we add 2 more electrons to the second shell, which is the 2s orbital. The remaining 3 electrons are placed in the 2p orbital, which is also in the second shell. Thus, the electron configuration for nitrogen is 1s22s22p3. This configuration explains why nitrogen has a valence of 3 and tends to form 3 covalent bonds with other elements.

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