a.) Determine whether potassium hydrogen tartrate (KHC4H4O6) is neutral, basic, or acidic. First, what is its Ka when it acts as an acid? The following are for the diprotic acid, H2C4H4O6: Ka1 = 1.0 x 10-3 and Ka2 = 4.6 x 10-5. b.) Second, what is its Kb when it acts as a base? c.) Finally, indicate whether the HC4H4O6- ion is neutral, basic, or acidic in solution.

The amount of potassium chloride that will dissolve in 50 grams of water at 50°C depends on the solubility of the salt at that temperature. The solubility of potassium chloride in water at 50°C is approximately 42 grams per 100 grams of water. Therefore, about 21 grams of potassium chloride will dissolve in 50 grams of water at 50°C.

Actually, when atomic radius grows, electronegativity often decreases.

The capacity of an atom to draw electrons into a chemical connection is known as electronegativity. The separation between the nucleus and the farthest electrons grows with increasing atomic radius. As a result, the nucleus's attraction to the electrons is reduced, making it more challenging for the atom to draw electrons to itself. The electronegativity values of bigger atoms are therefore often lower than those of smaller ones. Despite this general tendency, there are certain outliers since electronegativity also depends on other elements including nuclear charge and electron configuration. For instance, the rising nuclear charge in halogens causes the electronegativity to rise as the atomic radius falls.

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As the molar mass calculated is 24.90 g/mol, hence the gas is most likely to be NO.

The ratio between mass and the amount of substance of any sample is called molar mass.

To determine whether the gas is NO, NO2, or N2O5, we need to calculate the molar mass of the gas and compare it to the molar masses of these three possible gases.

n = PV/RT

Given, P = 760.0 mmHg, V = 250.0 mL = 0.2500 L, T = 17.00°C + 273.15 = 290.15 K, and R = 0.08206 L atm/mol K.

So, n = (760.0 mmHg)(0.2500 L)/(0.08206 L atm/mol K)(290.15 K) = 0.01003 mol

M = m/n

Given m = 0.2500 g.

M = 0.2500 g/0.01003 mol = 24.90 g/mol

Comparing this molar mass to the molar masses of NO (30.01 g/mol), NO2 (46.01 g/mol), and N2O5 (108.01 g/mol), we see that the gas is most likely NO.

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Note: The question given on the portal is incomplete. Here is the complete question.

Question: A 250.0-mL flask contains 0.2500 g of a volatile oxide of nitrogen. The pressure in the flask is 760.0 mmHg at 17.00°C. Is the gas NO, NO2, or N2O5?

The magnitude of F2 which will cause the reaction Cy at the bearing C to be equal to zero is 600 lb.

Let's assume the direction of F2 is x-axis and direction of Cy is y-axis. Apply the force balance equation along x-axis:

F2 = F1 + F3F3 = F2 - F1

As we know, the force along the y-axis is zero. So, there is no force balance equation along y-axis. Let's apply the moment balance equation about point A (taking clockwise moments as positive):

F1 × 4 + F2 × 6 = F3 × 2F1 × 4 + F2 × 6 = (F2 - F1) × 2

Now substitute F1 = 300 lb in the above equation.

300 × 4 + F2 × 6 = (F2 - 300) × 2300 × 4 + 6F2 = 2F2 - 600F2 = 600 lb

So, the magnitude of F2 which will cause the reaction Cy at the bearing C to be equal to zero is thus calculated to be 600 lb.

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After 12 minutes, the amount of 2N-71 remaining would be 25 grams. This is because the half-life of 2N-71 is 2.4 minutes, meaning that after 2.4 minutes, half of the initial amount (50 grams) will remain. After 12 minutes, half of the remaining 25 grams will have decayed, leaving 25 grams.

The initial amount of 2n-71 is 50 g, and the half-life of 2n-71 is 2.4 minutes. We need to determine how many grams of 2n-71 would be left after 12 minutes. During radioactive decay, the amount of a radioactive substance decreases exponentially over time. The formula for determining the amount remaining of a radioactive substance after time t is:A = A₀(1/2)^(t/h)Where, A₀ = the initial amount of the substance,A = the amount of the substance after time t,h = the half-life of the substance, and t = time elapsedPlugging the given values in the formula, we get:A = 50(1/2)^(12/2.4)A = 50(1/2)^5A = 50(1/32)A = 1.5625Therefore, the amount of 2n-71 left after 12 minutes is 1.5625 g.

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As sodium acetate is added to the solution, the sodium ions (Na+) will replace the hydrogen ions (H+) in the equation. This causes a shift in the equilibrium as the number of hydrogen ions (H+) decreases, while the number of acetate ions (CH3COO-) increases.

Sodium acetate is an ionic compound composed of Na⁺ and CH₃COO⁻ ions.

It dissociates in water to create these ions, which are then available to affect the dissociation of acetic acid.

The equilibrium of acetic acid dissociation is influenced by the addition of sodium acetate.

Acid dissociation equilibria are influenced by salt addition (usually sodium salts), particularly when the acid is weak.

This is due to the fact that the anion of the salt reacts with hydrogen ions from the acid's dissociation.

This decreases the concentration of hydrogen ions in the solution, causing the reaction to shift towards more dissociation.

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For the first unknown concentration with an absorbance of 1.72, the concentration will be, c = 1.72/(ɛ × b). For the second unknown concentration with an absorbance of 0.75, the concentration will be: c = 0.75/(ɛ × b).

Beer lambert's law states that the concentration of a solution is directly proportional to the absorbance of a solution. Mathematically, Beer's Law: A = εlc

where, A is absorbance, ε is the molar absorptivity, l is the path length, and c is the concentration.

We can rewrite the equation as, c = A / εl

where, c is the concentration, A is the absorbance, ε is the molar absorptivity, and l is the path length.

We have two absorbance values, which we will use to determine the concentration of the unknowns. Let's substitute the given values into the equation to determine the concentration of the first unknown.

where, c₁ = A₁ / εlc₁ = 1.72 / εl (1)

Now, let's substitute the second absorbance value to determine the concentration of the second unknown.

c₂ = A₂ / εlc₂ = 0.75 / εl(2)

The concentrations of the unknowns are c₁ and c₂, which we have expressed in terms of the concentration of the solution. The total concentration of the solution is not provided. Thus, we cannot determine the concentration of the unknown solutions.

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When 1.00 kcal of heat is applied, the water sample's final temperature is T = 50.0°C + 40.0°C = 90.0°C.

The amount of energy required to raise a substance's temperature is measured in terms of specific heat. It is the amount of energy (measured in joules) required to increase a substance's temperature by one degree Celsius per gram.

We must first determine the water sample's original temperature. The formula is as follows:

Q = mcΔT

Inputting the values provided yields:

700.00 cal = 25.0 g x 1.00 cal/g °C x (50°C - 22.0°C)

When we simplify this equation, we obtain:

ΔT = 700.00 cal / (25.0 g x 1.00 cal/g °C) = 28.0°C

Therefore, the initial temperature of the water sample is 22.0°C + 28.0°C = 50.0°C.

Inputting the values provided yields:

1.00 kcal = 25.0 g x 1.00 cal/g °C x (T - 50.0°C)

When we simplify this equation, we obtain:

T - 50.0°C = 1.00 kcal / (25.0 g x 1.00 cal/g °C) = 40.0°C

Therefore, When 1.00 kcal of heat is applied, the water sample's final temperature is T = 50.0°C + 40.0°C = 90.0°C.

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A spontaneous reaction under standard conditions is indicated by the value of K being greater than 1. Thus, the answer to the given question is option C, K = 2.2 x 10².

Standard conditions- Standard conditions are a set of environmental conditions that are considered to be the standard conditions for conducting an experiment. They serve as a reference point to compare the effects of varying environmental conditions on the properties of a substance or the results of an experiment.

Standard conditions in chemistry are considered to be a temperature of 298K (25°C), a pressure of 1 atm (101.3 kPa), and a concentration of 1 mol/L (for solutions).

Spontaneous reaction- A spontaneous reaction is one that proceeds without any external force or intervention. That is, a spontaneous reaction proceeds without the need for energy input from an external source. In other words, it is an exothermic reaction where the products are more stable than the reactants.

The Gibbs free energy change of a spontaneous reaction is negative. The sign of ΔG indicates the spontaneity of a reaction. A negative value indicates that the reaction is spontaneous, whereas a positive value indicates that the reaction is non-spontaneous. The value of ΔG° is used to determine the spontaneity of a reaction under standard conditions.

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Adding either hydrochloric acid or acetic acid to a solution of sodium acetate can produce a buffer. The chemical equation for the reaction between sodium acetate and hydrochloric acid is NaAc + HCl → NaCl + HAc, and for the reaction between sodium acetate and acetic acid is NaAc + HAc → NaCl + AcOH.
Sodium acetate can be used to make buffer solutions. A buffer is a solution that resists changes in pH when an acid or base is added. The two most important components of a buffer are a weak acid and its corresponding conjugate base. Acetic acid and sodium acetate are two such components that can be used to create a buffer. As a result, the answer to the question is acetic acid. Hence, option (c) acetic acid or hydrochloric acid is correct. Therefore, adding acetic acid to a sodium acetate solution would produce a buffer. The buffer solution can withstand pH changes when hydrochloric acid is added. Since hydrochloric acid is a strong acid, it ionizes completely in the solution and lowers the pH significantly. Acetic acid is a weak acid, on the other hand. It ionizes partially in solution, resulting in a small decrease in pH. When hydrochloric acid is added to the acetic acid-sodium acetate buffer, the additional hydrogen ions react with the buffer's acetate ion to form more acetic acid, which consumes the hydrogen ions and prevents a drastic decrease in pH. This is how a buffer works.

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The complete ionic equation for the reaction that occurs when aqueous solutions of lithium sulfide and copper (II) nitrate are mixed is as follows: 2 Li+(aq) + S2-(aq) + Cu2+(aq) + 2 NO3-(aq) → CuS(s) + 2 Li+(aq) + 2 NO3-(aq)

It is important to write the complete ionic equation when aqueous solutions of lithium sulfide and copper (II) nitrate are mixed. The reaction of lithium sulfide with copper (II) nitrate is a double displacement reaction. Lithium sulfide reacts with copper (II) nitrate to form copper sulfide and lithium nitrate.

The balanced chemical equation for the reaction is given as follows:Li2S(aq) + Cu(NO3)2(aq) → CuS(s) + 2 LiNO3(aq)The complete ionic equation can be written by representing all the ions in the aqueous solutions as dissociated ions.

Thus, the complete ionic equation for the reaction that occurs when aqueous solutions of lithium sulfide and copper (II) nitrate are mixed is as follows:2 Li+(aq) + S2-(aq) + Cu2+(aq) + 2 NO3-(aq) → CuS(s) + 2 Li+(aq) + 2 NO3-(aq.

)In the above equation, the lithium and nitrate ions do not take part in the reaction and are present in the same form in the reactant and product side. Hence, they are called spectator ions.

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The correct option is 'A' 12.5 mL of the minimum volume of 2.00 M NaOH needed to reach a pH of 10.00.

To reach a pH of 10.00, what is the minimum volume of 2.00 M NaOH needed to titrate 50.0 mL of a 1.00 M solution of a diprotic acid [tex]H_2A[/tex], where [tex]Ka_1[/tex] = 1.0 × [tex]10^-^6[/tex] and [tex]Ka_2[/tex] = [tex]10^-^1^0[/tex].

The reaction can be written as:

[tex]H_2A[/tex](aq) + 2 NaOH(aq) → [tex]Na_2A[/tex](aq) + 2 [tex]H_2O[/tex]

(l)In this diprotic acid, there are two stages of dissociation:

Therefore, the dissociation constant can be calculated as follows:

Ka1 = [H+][HA-] / [[tex]H_2A[/tex]]

     = 1.0 × [tex]10^-^6[/tex]

Ka2 = [H+][[tex]A^2^-[/tex]] / [HA-]

      = [tex]10^-^1^0[/tex]

The number of moles of the [tex]H_2A[/tex] solution = 50.0 mL * 1.00 M = 0.050 moles.

Since NaOH is a strong base, the number of moles of OH- ions in 1.00 M solution = 2 * 1.00 = 2.00 M.

The total number of moles of OH- ions that can react with 0.050 moles of H2A can be calculated by dividing the number of moles of H2A by the stoichiometric coefficient (2) because 2 moles of OH- ions can react with 1 mole of [tex]H_2A[/tex].

0.050 / 2 = 0.025 moles of OH- ions, which are available to react.

To react completely, 0.025 moles of OH- ions require 0.025 * 50 = 1.25 mL of 2.00 M NaOH.

Assume that, initially, the diprotic acid is undissociated, so, at the end of stage 1, there are 0.025 moles of [tex]H_2A[/tex] and 0.025 moles of H+ ions.

Using the Ka1 value, it can be calculated that:

[H+][HA-] / [[tex]H_2A[/tex]] = 1.0 × [tex]10^-^6[/tex]

[H+][0.025] / [0.025] = 1.0 × [tex]10^-^6[/tex]

[H+] = [tex]10^-^8[/tex]

The number of moles of NaOH required to react with [tex]H^+[/tex] ions can be calculated by dividing the concentration of NaOH by the volume of the solution.

2.00 M NaOH * V = [tex]10^-^8[/tex] moles of [tex]H^+[/tex] ions

V = 5.00 × [tex]10^-^9[/tex]mL

This is the minimum amount of NaOH required to react with [tex]H^+[/tex] ions.

So, the total amount of NaOH required to reach a pH of 10.00 is 1.25 mL + 5.00 × [tex]10^-^9[/tex] mL = 1.25 mL

Therefore, the minimum volume of 2.00 M NaOH required to reach a pH of 10.00 is 12.5 mL.

[tex]H^+[/tex]

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When benzoquinone is treated with excess butadiene, the products obtained are 2,5-dimethylcyclohexadiene-1,4-dione and cyclohexene.

Benzoquinone is also known as 1,4-benzoquinone or cyclohexa-2,5-diene-1,4-dione, is a colorless organic compound. The presence of two carbonyl groups in its structure provides it its characteristic quinone chemistry.

Butadiene, also known as 1,3-butadiene, is a conjugated diene. The reaction between benzoquinone and butadiene is called a Diels-Alder reaction.

The Diels-Alder reaction is a conjugate addition reaction that joins a diene and a dienophile to create a new six-membered ring. The most important characteristic of the Diels-Alder reaction is its stereospecificity. This reaction occurs between a cyclic diene and an alkene or alkyne dienophile.

The products obtained when benzoquinone is treated with excess butadiene are:2,5-dimethylcyclohexadiene-1,4-dioneCyclohexeneThe reaction proceeds with the dienophile (benzoquinone) being attacked by the diene (butadiene) in the Diels-Alder reaction to produce a cyclic adduct. The product is 2,5-dimethylcyclohexadiene-1,4-dione. Cyclohexene is formed as a byproduct of the reaction.

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The correct answer is that none of the substances listed actually speeds up the absorption of alcohol.

As the rate of alcohol absorption depends on various factors such as the amount of alcohol consumed, the rate of gastric emptying, and the presence of food in the stomach. However, carbonated water and starchy foods may help slow down the absorption of alcohol by delaying the emptying of the stomach, which can result in a slower increase in blood alcohol concentration. Meat products may also help in slowing down the absorption of alcohol due to their high protein content, which can reduce the rate of gastric emptying. Plain water, on the other hand, may actually dilute the alcohol content in the stomach but will not speed up its absorption. It is important to note that while these substances may help to delay the absorption of alcohol, they do not reduce its effects on the body or prevent intoxication. The only effective way to reduce the effects of alcohol is to consume it in moderation or to avoid it altogether. It is also important to never drink and drive, and to seek medical attention if one experiences severe symptoms of alcohol consumption.

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The phenomenon in which electrons that are closer to the nucleus slightly repel those that are farther out is known as Shielding.

Electrons in an atom are negatively charged particles, and they are attracted to the positively charged nucleus. However, the outer electrons of an atom are also repelled by the inner electrons that are closer to the nucleus. This repulsion is due to the negative charges of the electrons, and it partially cancels out the attraction of the nucleus for the outer electrons.

Shielding is the phenomenon in which electrons that are closer to the nucleus slightly repel those that are farther out. This makes it possible for electrons in higher energy levels to be farther from the nucleus, so they are less strongly attracted and easier to remove.

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Answer:

a. The gluing together of any two atoms that don't have full outer shells.

b. The separation of electrons from the main atom.

c. The joining of atoms by a shared interested of valence electrons which ends up

creating new substances.

d. The melting of substances to form new solids.

Explanation:

a. The gluing together of any two atoms that don't have full outer shells refers to chemical bonding, which can occur through different mechanisms such as covalent bonding, ionic bonding, and metallic bonding.

b. The separation of electrons from the main atom refers to ionization, where an atom or molecule loses or gains one or more electrons and becomes charged.

c. The joining of atoms by a shared interest of valence electrons which ends up creating new substances refers to covalent bonding, where atoms share electrons to form a stable molecule.

d. The melting of substances to form new solids does not necessarily create new substances; it is a physical change where a solid is transformed into a liquid due to an increase in temperature. Upon cooling, the liquid may solidify again, either forming the original substance or a different solid phase.

The reaction in the gas mixture will proceed non-spontaneously in the forward direction when the standard free energy change (∆G°) is positive or zero.

In chemical reactions, the term spontaneity refers to whether the reaction proceeds on its own or requires an input of energy to occur. When ∆G° is negative, a reaction is said to be spontaneous in the forward direction, meaning it occurs naturally without any external input of energy. When ∆G° is positive or zero, on the other hand, the reaction proceeds nonspontaneously in the forward direction.

In other words, the reaction requires energy input to proceed. The free energy change (∆G) of a reaction is related to its standard free energy change (∆G°) through the equation:

∆G = ∆G° + RT ln(Q)

where, R is the gas constant, T is the temperature in Kelvin, and Q is the reaction quotient.

If Q = 1, the reaction is at equilibrium and ∆G = ∆G°. If Q < 1, the reaction proceeds spontaneously in the forward direction (∆G < 0), and if Q > 1, the reaction proceeds spontaneously in the reverse direction (∆G > 0).

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The electron transport chain (ETC) is an essential part of cellular respiration, which is a series of molecules that transfer electrons from one molecule to another used by cells to convert nutrients into energy.

This starts with the oxidation of molecules such as glucose, which releases electrons that are then transferred to a series of electron carriers in the ETC. The electron carriers are molecules that hold the electrons and can transfer them to other molecules which is known as redox reactions. As the electrons move through the ETC, they release energy which is used to form a proton gradient that is then used to drive the synthesis of ATP, the energy currency of the cell. The ETC is an essential part of cellular respiration as it is the process responsible for generating the energy necessary for cells to function.

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The volume of H₂ gas produced from 1.30 g of Mg in excess HCl is 0.0019 L.

The balanced equation for the reaction of magnesium metal with HCl is:

Mg + 2HCl → MgCl₂ + H₂

The molar mass of Mg is 24.31 g/mol.

The mass of Mg that reacted = 1.30 g

The moles of Mg that reacted = 1.30 g ÷ 24.31 g/mol = 0.0535 mol

According to the balanced equation, 1 mol of Mg reacts with 1 mol of H₂

Therefore, 0.0535 mol of Mg will produce 0.0535 mol of H₂.

Since, the volume of gas produced is proportional to the number of moles of the gas, we can use the ideal gas equation to find the volume of H₂

PV = nRT

Where, P = 720 torr = 720/760 atm (1 atm = 760 torr)

T = 34 + 273 = 307 K

R = 0.0821 L·atm/mol·K

V = n × 0.0821 L·atm/mol·K × 307 K/ 720 torr = 0.0535 mol/ 720 torr × 25.2047 L/molK =0.0019 L

At 720 torr and 34 °C, 0.0535 mol of hydrogen occupies a volume of 0.0019 L.

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The pH at the equivalence point in the titration of a 23.4 mL sample of a 0.427 M aqueous nitrous acid solution with a 0.494 M aqueous potassium hydroxide solution is 7.00.

Titration is a chemical analysis method that measures the amount of a chemical compound in a solution by using a standard solution (a solution of known concentration).

Titration can be used to determine the concentration of an unknown solution, the quantity of a particular substance in a sample, or the identity of a substance. Titration is frequently utilized in chemistry labs to test acid or base solutions' strength.

Titration calculations involve the use of formulas that relate the concentration of the standard solution to the concentration of the unknown solution. Acid-base titration, which measures the concentration of an acidic or basic solution, is one of the most popular types of titration.

The pH at the equivalence point in the titration of a 23.4 mL sample of a 0.427 M aqueous nitrous acid solution with a 0.494 M aqueous potassium hydroxide solution is 7.00 because nitrous acid (HNO2) is a weak acid with a Ka value of 4.5 x 10-4. At the equivalence point, the quantity of moles of the potassium hydroxide solution added is equal to the quantity of moles of the nitrous acid solution. The pH of the solution is determined by the salt produced during the titration's neutralization reaction.

The salt produced during this titration is potassium nitrite (KNO2), which is a salt of a strong base and a weak acid. When dissolved in water, potassium nitrite undergoes hydrolysis and produces a solution with a pH of about 7.00. As a result, at the equivalence point, the pH of the solution is 7.00.

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The difference in electrochemical potential between two electrodes of an electrochemical cell is called as the cell potential.

The potential difference or voltage that exists between two electrodes in an electrochemical cell when no current is flowing through the cell is called the cell potential. Cell potential, also known as electromotive force (emf), is a measure of the driving force that drives a chemical reaction in an electrochemical cell forward.

The potential difference between the anode and cathode of an electrochemical cell is a quantitative measurement of the cell's capacity to generate electrical energy. The cell potential is usually measured in volts (V), and its sign is determined by the direction in which the electrons flow through the cell. When electrons flow spontaneously from the anode to the cathode, the cell potential is positive, whereas if electrons are forced to flow from the cathode to the anode, the cell potential is negative.

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Answer:

(A).Liquid water has a specific heat of 4.184J/g.k

(B)Volume = 39,420 LSo, kilograms= 44.7 kg

Explanation:

(a) The specific heat at constant volume of nitrogen (N2) gas is 20.8 J/K.mol. Compare it with the specific heat of liquid water.Liquid water has a specific heat of 4.184 J/g.K

(b) For the same amount of heat, we would be able to warm 44.7 kg of 20.0 °C air to 30.0 °C. Air has a molar mass of 28.97 g/mol. We can use the ideal gas law to determine the volume of 44.7 kg of air at 20.0 °C and 1.00 atm pressure.

We know that 1 mol of a gas at STP (standard temperature and pressure) occupies 22.4 L. Since air is 100% N2, its molar mass is 28.0 g/mol. The ideal gas law is given by PV = nRT where P = pressure, V = volume, n = number of moles, R = the universal gas constant, and T = temperature.

Substituting values, we have:

PV = nRTV = nRT/PAt

20.0 °C and 1.00 atm, T = 293 K and P = 1.00 atm.

Therefore, we have:

n = mass/molar mass = 44.7 kg / (28.97 g/mol) = 1543.8 mol

R = 0.082 L.atm/K.mol

Substituting these values into the equation, we have:

V = (1543.8 mol)(0.082 L.atm/K.mol)(293 K) / (1.00 atm)

V = 39,420 LSo, 44.7 kg of 20.0 °C air occupies a volume of 39,420 L at 20.0 °C and 1.00 atm pressure.

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The following 0.10 m solutions can be ranked from lowest to highest boiling point (bp) as:

ammonia < diethylamine < methylamine < t-butylamine.

The elevation in boiling point, ΔTb can be calculated using the expression;

ΔTb = Kb × bm

where ΔTb is the elevation in boiling point, Kb is the boiling point elevation constant, m is the molality of the solution.

For a given solvent, the boiling point elevation is directly proportional to the molality of the solute present, which means that the higher the molality of the solute, the higher the elevation in boiling point. Hence, we can rank the given solutions based on their molality.

The given solutions are all amines and they have the same formula NH₂R. The boiling point elevation constant is inversely proportional to the size of the molecule, which means that the smaller the molecule, the higher the boiling point elevation constant. Hence, the given amines can be ranked based on the size of their alkyl groups.

The order of the given amines based on the size of their alkyl groups is;

t-butylamine > diethylamine > methylamine > ammonia

The order of the given amines based on the boiling point elevation constant is;

ammonia > methylamine > diethylamine > t-butylamine

Ranking the given solutions based on their molality gives;

ammonia < diethylamine < methylamine < t-butylamine

Hence, the order of the given solutions from lowest to highest bp is;

ammonia < diethylamine < methylamine < t-butylamine

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Highest boiling point compound is CBr4. The compound which has lowest freezing point is F2. The compound which has lowest vapor pressure is CH3CH2OH. The compound which has greatest viscosity is H2O2.

The boiling point of a substance is directly related to the strength of the intermolecular forces between the particles of the substance. The compound with the highest boiling point in this group is CBr4 because of its stronger London dispersion forces.
The freezing point of a substance is directly related to the strength of the intermolecular forces between the particles of the substance. A covalent compound has weak van der Waal forces between its particles, and the smaller the particle, the weaker the van der Waal force. F2 has the smallest particle size and therefore the lowest freezing point.c. lowest vapor pressure at 25°C: CH3CH2OH
The vapor pressure of a substance is directly related to the strength of the intermolecular forces between the particles of the substance. The compound with the lowest vapor pressure at 25°C. is CH3CH2OH.

The compound with greatest viscosity: H2O2. Viscosity is a measure of a liquid's resistance to flow. The greater the viscosity, the greater the resistance to flow.
Enthalpy of vaporization is the amount of energy required to vaporize a unit quantity of a substance. The enthalpy of vaporization is related to the strength of the intermolecular forces between the particles of the substance. The compound with smallest enthalpy of fusion is I2.
The enthalpy of fusion is the amount of energy required to melt a unit quantity of a substance. I2 has the weakest intermolecular forces and therefore the smallest enthalpy of fusion.

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The potassium tert-butoxide is final product of the reaction is (CH3)3COH.

Why potassium tert-butoxide is (CH3)3COH?

The product for the given reaction is (CH3)3COH.

Reaction: (CH3)3CBr + KOtBu →(CH3)3COH + KBr

Potassium tert-butoxide (KOtBu) is a strong base that can deprotonate hydrogen from (CH3)3COH to form (CH3)3CO-.On the other hand,

(CH3)3CBr is a tertiary halide that can undergo an E2 reaction.

E2 is the abbreviation for bimolecular elimination reactions,

which involve the abstraction of a proton from the adjacent carbon and the removal of the halide anion.

The hydrogen that is abstracted by KOtBu can only come from the carbon that is adjacent to the bromine in (CH3)3CBr, according to Saytzeff's rule, because this is the carbon with the least number of hydrogens.

As a result, an alkene intermediate will be formed.

The KBr salt will be the by-product.

The alkene intermediate, however, is not present in the end product because it is a reactive molecule and quickly reacts with any available hydrogen.

The hydrogen is provided by the KOtBu base.

As a result, the final product of the reaction is (CH3)3COH.

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Le Chatelier's principle predicts that when a stress or change is added to a system at equilibrium, the system will adjust in order to counteract the stress or change. The principle can be used to describe the shift in the direction of the chemical equilibrium in response to changes in pressure, temperature, or concentration.

Le Chatelier's principle states that when the temperature is increased, the equilibrium system will absorb the heat by shifting the equilibrium position in the direction that uses up the heat energy. If heat is a product of the reaction, the equilibrium will shift to the left. If heat is a reactant, the equilibrium will shift to the right.

Here, in the case of the reaction of nitrogen and hydrogen to create ammonia:

N₂(g) + 3H₂(g) ⇌ 2NH₃(g), ∆H = −92 kJ/mol

The reaction produces heat, therefore the reaction is exothermic. An increase in temperature will cause a shift in equilibrium to the left, as the reaction will try to use up the excess heat. This means that the reaction will reduce the amount of NH₃ in the system, leading to a decrease in the concentration of NH₃.

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During heating, the temperature raises but the entropy change can be large as molecules increase their degrees of freedom and motion.

Entropy is a thermodynamic quantity that measures the disorder or randomness of a system. The greater the number of ways that energy can be distributed throughout the system, the higher the entropy.

Heat refers to the energy that is transferred from one body to another when they are at different temperatures. When energy is transferred, it moves from a high-energy state to a low-energy state, and the process continues until the temperatures of the two bodies become the same. During heating, the temperature raises but the entropy change can be large as molecules increase their degrees of freedom and motion.

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Answer:

In general terms, because (1) the carbon-oxygen and hydrogen-oxygen bonds in ethanol are much more polar than any of the bonds in propane; (2) the oxygen atom in ethanol can form hydrogen bonds with the hydrogen atoms in water, but there is not such possibility with propane; and (3) propane contains more carbon atoms per molecule than ethanol.

Explanation:

In general terms, because (1) the carbon-oxygen and hydrogen-oxygen bonds in ethanol are much more polar than any of the bonds in propane; (2) the oxygen atom in ethanol can form hydrogen bonds with the hydrogen atoms in water, but there is not such possibility with propane; and (3) propane contains more carbon atoms per molecule than ethanol.

A 3.6102 M HI solution has a pH of 1.44. A 9.23102 M HClO4 solution has a pH of 0.036. The mass-based solution with 1.01% HCl has a pH of 2.09 in water.

The concentration of hydrogen ions (H+) in a solution determines the pH, which is a measurement of the solution's acidity or basicity. The pH values of various solutions are measured in the examples provided. Strong acids, HI and HClO4, are present in the first two solutions. Due to its lower pH, HI is a stronger acid than HClO4. The third solution, which comprises a combination of HClO4 and HCl and is weaker than the previous two because of its higher pH level, contains HCl. The pH of the final solution, which contains 1.01% HCl by mass, is 2.09, showing that it is a weak acid.

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