Select the single best answer A solid is very hard and has a high melting point. Neither the solid nor its melt conducts electricity Classify the solid. O ionic O covalentO molecular O metallic

Answers

Answer 1

The solid is a molecular solid. Molecular solids are made up of molecules that are held together by weak intermolecular forces such as London dispersion forces or hydrogen bonds.

What is intermolecular ?

Intermolecular forces are the forces of attraction or repulsion that act between the molecules of a material. These forces are weaker than the intramolecular forces that hold together the atoms in a molecule. Examples of intermolecular forces include London dispersion forces, dipole-dipole interactions, and hydrogen bonding. These forces affect the physical properties of a material such as its melting point, boiling point, and viscosity. The strength of intermolecular forces is determined by the properties of the molecules involved and how close they are to each other.

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Related Questions

Which of the following correctly identifies the chemical bond between a carbon and oxygen atom? a) Polar Covalent. b) Pure Covalent. c) Nonpolar. d) Ionic.

Answers

Answer:

a) polar covalent

Explanation:

the C-O bond is polar as it has an electronegative difference value is around 1 which falls in the polar range, and as electrons are shared in these bonds it is covalent bonding.

What is the pH of a solution with a [OH-] of 4.1 x 10-3 M?

Answers

The pH of the solution is 11.61.

We know that the concentration of hydroxide ions and the concentration of hydrogen ions in any aqueous solution are related by the equation:

[tex][OH-] * [H+] = 1.0 *10^-14[/tex]

Taking the negative logarithm of both sides of this equation, we get:

[tex]-pOH + pH = 14.00[/tex]

where pOH is the negative logarithm of the hydroxide ion concentration, and pH is the negative logarithm of the hydrogen ion concentration.

Substituting the given value of [OH-] into the above equation, we can calculate the pOH:

[tex][OH-] = 4.1 x 10^-3 M\\pOH = -log[OH-] = -log(4.1 * 10^-3) = 2.39[/tex]

Using the relationship between pH and pOH, we can then calculate the pH of the solution:

pH = 14.00 - pOH = 14.00 - 2.39 = 11.61

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What are the major species present in a 0.150-M NH3 solution? Calculate the [OH2] and the pH of this solution.

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NH[tex]_3[/tex] and H[tex]_2[/tex]O are the major species present in a 0. 150-M NH solution. pOH is 2.79 and pH is 11.21.

pH (commonly known as acidity in chemistry, has historically stood for "the potential of hydrogen" (as well as "power of hydrogen").[1] This is a scale employed to describe how basic or how acidic an aqueous solution is. When compared to basic or alkaline solutions, acidic solutions—those with higher hydrogen (H+) ion concentrations—are measured with lower pH values.

Since NH3 is weak base . A weak base con not ionize completely to prodcue NH4+ and OH-.So the major species are NH3 & H2O only.

NH[tex]_3[/tex]+H[tex]_2[/tex]O→NH[tex]_4[/tex]⁺ +OH⁻

Kb=[NH[tex]_4[/tex]⁺ ][ OH⁻]/NH[tex]_3[/tex]

1.8×10⁻⁵ =X²/0. 150

X=1.64×10⁻³

pOH = -log[1.64×10⁻³]

       = 2.79

pH =14-2.79=11.21

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Draw the structure of threonine as it would appear at pH 1.0. • You do not have to consider stereochemistry. • You do not have to explicitly draw H atoms. • Do not include lone pairs in your answer. They will not be considered in the grading.

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At pH 1.0, threonine would be in its fully protonated form.

The structure would have a positively charged amino group (NH3+) and a carboxyl group (COOH). The side chain would be an OH group attached to a CH3 group. The structure would be:

H3N+ - CH(COOH)(CH3) - CH(OH) - R

where R represents the remaining part of the molecule.

Threonine is one of the 20 amino acids that make up proteins in living organisms. At pH 1.0, threonine would be in its fully protonated form because at this pH, the environment is highly acidic, and the amino group (NH2) and carboxyl group (COOH) on the threonine molecule are fully protonated, resulting in a net positive charge on the molecule.

The chemical formula for threonine is C4H9NO3, and it has a chiral center, which means it can exist in two different forms, D-threonine and L-threonine.

The structure of threonine at pH 1.0 would have a positively charged amino group (NH3+) and a carboxyl group (COOH), which are attached to a central carbon atom.

The side chain of threonine is an OH group attached to a CH3 group, which is also attached to the central carbon atom. The remaining part of the molecule, represented by R, could be any organic molecule or functional group that could be attached to the central carbon atom of threonine.

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The pH of a 11. 1 M solution of acid H, CO2 is found to be 2. 660. What is the Ka of the acid? The equation described by the Ka value is H2CO (aq) + H2O)

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The Ka of H₂CO₃ is 4.45 × 10⁻⁷, which is a measure of its acid strength.

The chemical equation for the ionization of H₂CO₃ in water is:

H₂CO₃ (aq) + H₂O (l) ⇌ HCO₃- (aq) + H₃O+ (aq)

The Ka expression for this reaction is:

Ka = [HCO₃-][H₃O+] / [H₂CO₃]

We can use the pH of the solution to find the [H₃O+] concentration:

pH = -log[H₃O+]

2.660 = -log[H₃O+]

[H₃O+] = 2.24 × 10⁻³ M

Since H₂CO₃ is a diprotic acid, it can donate two protons. However, in aqueous solution, it dissociates primarily to HCO₃- and H₃O+.

To calculate the concentration of H₂CO₃in solution, we can use the fact that it dissociates very little, so we can assume that the amount of H₂CO₃ that dissociates is negligible compared to the initial concentration:

[H₂CO₃] ≈ 11.1 M

Similarly, we can assume that the concentration of HCO₃- produced is also negligible compared to the initial concentration of H₂CO₃ since H₂CO₃ is a weak acid and does not dissociate significantly.

Therefore, we can assume that the only source of H₃O+ is the dissociation of H₂CO₃,  so the [H₃O+] concentration is equal to the concentration of H₂CO₃ that ionizes, which is x.

Using the Ka expression and the concentration values, we have:

Ka = [HCO₃-][H₃O+] / [H₂CO₃]

Ka = x² / (11.1 - x)

We can approximate x as being equal to the [H₃O+] concentration we found earlier:

x ≈ [H₃O+] = 2.24 × 10⁻³ M

Substituting these values into the Ka expression, we have:

Ka = (2.24 × 10⁻³)² / (11.1 - 2.24 × 10⁻³)

Ka = 4.45 × 10⁻⁷

Therefore, the Ka of H₂CO₃ is 4.45 × 10⁻⁷, which is a measure of its acid strength.

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how many moles of hcl must be added to 1.0 l of 1.0 m nh3(aq) to make a buffer with a ph of 9.00? (pka of nh4 = 9.25)

Answers

Number of moles of HCl must be added to 1.0 I of 1.0 m NH₃ to make a buffer with a pH of 9.00 of NH₄ is 0.64 moles of HCl.

         NH₃ + HCl -------------> NNH₄Cl

          I            1          x                          0

        C           - x         -x                         +x

          E        1- x        0                           +x

        POH  = PKₐ + log[NH₄+]/[NH₃]

         PKb  = 14-Pkₐ

                    = 14 - 9.25  = 4.75

        POH  = 14-PH

                 = 14-9  = 5

  POH  = PKb + log[NH₄+]/[NH₃]

5         = 4.75 + log x/1-x

log x/1-x   = 5-4.75

log x/1-x   = 0.25

 x/1-x         = 10⁰.²⁵

  x/1-x        = 1.7782

 x              = (1-x) × 1.7782

x   = 0.64

So , no. of moles of HCl  = 0.64 moles

Buffer solution :

A buffer solution has a pH that is "resistant" to small amounts of a strong acid or strong base added to it. A weak acid and its conjugate base are typically present in "large" quantities and in relatively equal amounts in buffers.

An acid or base aqueous solution, also known as a pH buffer or hydrogen ion buffer, is a mixture of a weak acid and its conjugate base or vice versa. When a small amount of a strong acid or base is added to it, its pH changes very little.

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The number of moles of HCl to be added is 0.64 moles.

What is the number of moles of HCl required?

The number of moles of HCl required to be added to 1.0 L of 1.0 M NH₃ (aq) to make a buffer with a pH of 9.00 is determined as follows:

Equation of the reaction: NH₃ + HCl ----------> NH₄Cl

Constructing an ICE table:

                      NH₃ + HCl ----------> NH₄Cl

         I            1          x                          0

         C         - x         -x                         +x

         E        1- x          0                         +x

From the Henderson-Hasselbalch equation:

pOH  = pKₐ + log[NH₄+]/[NH₃]

pKb  = 14 - Pkₐ

pKb = 14 - 9.25

pKb = 4.75

pOH  = 14 - pH

pOH = 14 - 9

pOH = 5

Therefore,

pOH  = pKb + log[NH₄+]/[NH₃]

5  = 4.75 + log x/1-x

log x/1-x   = 5-4.75

log x/1-x   = 0.25

x/1-x  = [tex]10^{0.25}[/tex]

x/1-x = 1.7782

x = (1-x) × 1.7782

x   = 0.64

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a scientist performs a measurement on a steam engine and determines that 813.4 kj of heat energy were consumed. it is known that vaporization of water requires 40.67 kj/mol. how many grams of water were vaporized in this measurement

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In this scenario, the scientist has determined that 813.4 kJ of heat energy were consumed during the measurement of a steam engine. We also know that vaporization of water requires 40.67 kJ/mol of heat energy. Then, approximately 359,847 grams of water were vaporized in this measurement.

To find out how many grams of water were vaporized during this measurement, we need to use some basic calculations.
Firstly, we need to convert the heat energy consumed from kJ to J by multiplying 813.4 by 1000, giving us 813,400 J.
Next, we need to use the equation: q = n x ∆Hvap, where q is the heat energy consumed, n is the number of moles of water vaporized, and ∆Hvap is the molar enthalpy of vaporization of water (40.67 kJ/mol).
Rearranging this equation to solve for n, we get:
n = q / ∆Hvap
Plugging in the values, we get:
n = 813400 J / 40.67 kJ/mol
n = 19998.77 mol
Therefore, the number of moles of water vaporized in this measurement is 19998.77 mol.
To find out how many grams of water were vaporized, we need to use the molar mass of water (18.015 g/mol) and multiply it by the number of moles of water vaporized:
Mass of water vaporized = n x Molar mass
Mass of water vaporized = 19998.77 mol x 18.015 g/mol
Mass of water vaporized = 359846.7 g
Therefore, approximately 359,847 grams (or 359.8 kg) of water were vaporized in this measurement.

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a(n) _____ is a chemical combination of two or more atoms in definite (fixed) proportions.

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A(n) molecule is a chemical combination of two or more atoms in definite (fixed) proportions.

Molecules are formed when atoms bond together in specific ratios.

These ratios are determined by the atoms' valence electrons and their ability to form stable bonds.

Molecules can consist of atoms of the same element, like O2 (oxygen gas), or atoms of different elements, like H2O (water).


A molecule is a chemical combination of two or more atoms in definite proportions, resulting from the stable bonding of atoms based on their valence electrons.

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calculating pk a from accepted k_ a calculate the pk a of acetic acid from accepted k_ a (1.80 × 10-5) :

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The pKₐ value of acetic acid is 4.744.

The pKₐ of acetic acid can be calculated from the accepted kₐ value of 1.80 × 10⁻⁵ using the formula pKₐ = -log₁₀(kₐ).

The acid dissociation constant (kₐ) is a measure of the strength of an acid in solution, and is defined as the ratio of the concentration of the dissociated (H⁺) ions to the concentration of the undissociated acid. The smaller the kₐ value, the weaker the acid, and the larger the pKₐ value.

In the case of acetic acid, the accepted kₐ value is 1.80 × 10⁻⁵, which indicates that it is a weak acid. To calculate the pKₐ value, we use the formula pKₐ = -log₁₀(kₐ). Substituting the given value of kₐ, we get:

pKₐ = -log₁₀(1.80 × 10⁻⁵)

= -(-4.744)

= 4.744

This value indicates that acetic acid is a weak acid, since the pKₐ of a strong acid is typically less than zero.

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Calculate the molarity of 31.85 grams of NaCl in 3.0 liters of solution.

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The molarity of 31.85 grams of NaCl in 3.0 liters of solution is 0.18M.

How to calculate molarity?

Molarity is the concentration of a substance in solution, expressed as the number of moles of solute per litre of solution.

Molarity of a solution can be calculated by dividing the number of moles of the substance by its volume as follows;

Molarity = no of moles ÷ volume

According to this question, 31.85 grams of NaCl is equivalent to 0.54 moles. The molarity of the solution can be calculated as follows;

molarity = 0.54 moles ÷ 3.0L = 0.18M

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A compound is characterized by an NMR spectrum that consists of only a single peak having the chemical shift indicated. Identify the compound.C8H18; δ=0.9 ppm

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The single peak in the NMR spectrum at 0.9 ppm is characteristic of a saturated hydrocarbon with eight carbon atoms and 18 hydrogen atoms, or octane.

The NMR spectrum of a compound is a powerful tool for identifying the chemical structure of the compound.

In this case, the NMR spectrum consists of only a single peak with a chemical shift of 0.9 ppm, which indicates that all of the hydrogen atoms in the molecule are in an identical electronic environment.

The molecular formula given is [tex]C_{8}H_{18}[/tex], which corresponds to a saturated hydrocarbon with eight carbon atoms and 18 hydrogen atoms, also known as octane.

The fact that there is only one NMR peak indicates that all of the hydrogen atoms in octane are equivalent, meaning that they are in the same chemical environment and experience the same magnetic field.

Therefore, the single peak in the NMR spectrum at 0.9 ppm is characteristic of a saturated hydrocarbon with eight carbon atoms and 18 hydrogen atoms, or octane.

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hat is the concentration (in m) of hydronium ions in a solution at 25ec with ph = 4.282?

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The concentration of hydronium ions in the solution is approximately 5.19 × 10^(-5) M.

To find the concentration of hydronium ions (in M) in a solution at 25°C with a pH of 4.282, you need to use the formula:
pH = -log10[H3O+]

Where pH is the measure of acidity, [H3O+] is the concentration of hydronium ions, and log10 is the base 10 logarithm. To find [H3O+], you'll need to rearrange the formula:

[H3O+] = 10^(-pH)

Now, plug in the given pH value:
[H3O+] = 10^(-4.282)

Calculate the result:
[H3O+] ≈ 5.19 × 10^(-5) M

So, the concentration of hydronium ions will be approximately 5.19 × 10^(-5) M.

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when two particular chemicals, such as sugar and sulfuric acid, are brought together they react violently with each other, with a surrounding atmospheric temperature the catalyst. these types of explosives are called: question 5

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When two particular chemicals, such as sugar and sulfuric acid, react violently with each other in the presence of a surrounding atmospheric temperature as a catalyst, these types of explosives are called chemical explosives.



That chemical explosives involve the rapid release of energy due to a chemical reaction between the reactants.

In this case, sugar and sulfuric acid undergo a violent reaction, generating heat and gas, leading to an explosion.



Hence , sugar and sulfuric acid reacting in the presence of atmospheric temperature as a catalyst form a type of chemical explosive.

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what is the effect of adding hclo4(aq) to an aqueous solution of ammonia? 1. the ph of the solution will decrease. 2. the concentration of nh4 (aq) will decrease. 3. the concentration of nh3(aq) will decrease.

Answers

The addition of HClO₄(aq) to an aqueous solution of ammonia will result in a decrease in the pH of the solution.


When you add HClO₄(aq), a strong acid, to an aqueous solution of ammonia (NH₃(aq)), a weak base, they will react to form ammonium chloride (NH4Cl) and water:

HClO₄(aq) + NH₃(aq) → NH₄Cl(aq) + H₂O(l)

1. The pH of the solution will decrease: This is because the strong acid (HClO₄) will neutralize the weak base (NH₃) and produce NH₄Cl, which is a salt that has acidic properties. As a result, the pH will decrease.

3. The concentration of NH₃(aq) will decrease: As HClO₄ and NH₃ react to form NH₄Cl, the concentration of NH₃ in the solution will decrease since it is being consumed in the reaction.

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which compound(s) will not form a yellow precipitate when treated with excess iodine in the presence of naoh ? select the unreactive structure(s): a six carbon chain with a ketone on carbon 2. a five carbon chain with a ketone on carbon 3. a 5 carbon chain with a ketone on carbon 2. a six carbon chain with a ketone on carbon 4.

Answers

The main answer is that the compound with a six carbon chain and a ketone on carbon 4 will not form a yellow precipitate when treated with excess iodine in the presence of NaOH.

that the yellow precipitate formed in this reaction is due to the presence of an alpha-beta unsaturated carbonyl compound, which can undergo a reaction with iodine and NaOH to form iodoform. However, the compound with a ketone on carbon 4 does not have an alpha-beta unsaturated carbonyl group, so it will not react with iodine and NaOH to form a yellow precipitate.

out of the given options, only the compound with a six carbon chain and a ketone on carbon 4 will not form a yellow precipitate when treated with excess iodine in the presence of NaOH.

The compound(s) that will not form a yellow precipitate when treated with excess iodine in the presence of NaOH are: a five carbon chain with a ketone on carbon 3 and a six carbon chain with a ketone on carbon 4.
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: When treated with excess iodine in the presence of NaOH, compounds that contain methyl ketones (RC(O)CH3) will undergo the iodoform reaction, which produces a yellow precipitate of iodoform (CHI3). In this case, the compounds with ketones on carbon 2 (both five and six carbon chains) contain methyl ketones, so they will form a yellow precipitate. However, the five carbon chain with a ketone on carbon 3 and the six carbon chain with a ketone on carbon 4 do not contain methyl ketones and will not form a yellow precipitate.

Based on the structures provided, the compounds that will not form a yellow precipitate in the reaction with excess iodine and NaOH are those with a ketone on carbon 3 in a five carbon chain and a ketone on carbon 4 in a six carbon chain.

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in this experiment, we explore the concepts of heat, q, and enthalpy, ΔH. Which of the statements below correctly describe the relationships between q and ΔH? Select all that apply O At constant pressure, q=-ΔH. TO he sign of q and ΔH for a system are the opposite sign of q and ΔH for the surroundings. O At constant pressure, q=ΔH. There is no relationship between q and ΔH.

Answers

The correct statements are:
- The sign of q and ΔH for a system are the opposite sign of q and ΔH for the surroundings.
- At constant pressure, q = ΔH.

Based on the given statements:

1. At constant pressure, q = -ΔH.
This statement is incorrect. At constant pressure, the heat exchanged (q) is equal to the change in enthalpy (ΔH).

2. The sign of q and ΔH for a system are the opposite sign of q and ΔH for the surroundings.
This statement is correct. When a system gains heat (positive q) or experiences an increase in enthalpy (positive ΔH), the surroundings lose heat (negative q) and decrease in enthalpy (negative ΔH), and vice versa.

3. At constant pressure, q = ΔH.
This statement is correct. Under constant pressure conditions, the heat exchanged (q) is equal to the change in enthalpy (ΔH) for the system.

4. There is no relationship between q and ΔH.
This statement is incorrect, as we've established that there is a relationship between heat (q) and enthalpy (ΔH), particularly under constant pressure conditions.

So, the correct statements are:
- The sign of q and ΔH for a system are the opposite sign of q and ΔH for the surroundings.
- At constant pressure, q = ΔH.


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Which of the following substances has the greatest molar entropy under equal conditions and in the same phase?
a. NO2 b. N2O3 c. N2O5 d. NO e. N2O4

Answers

The substance with the greatest molar entropy under equal conditions and in the same phase among the given options is: d. NO
This is because molar entropy increases with molecular complexity. NO has a higher molecular complexity due to its unpaired electron, making its entropy greater than that of the other molecules listed.

Nitric oxide (NO), an odourless, colourless gas, and nitrogen dioxide (NO2), a reddish-brown gas with an offensive odour, are the two gases that are typically referred to as "nitrogen oxides" (NOx). Nitrogen dioxide is created when nitric oxide combines with oxygen or ozone in the atmosphere.

Nitrogen oxide, sometimes known as nitrogen monoxide[1], is an inert gas with the chemical formula NO. It is one of the main nitrogen oxides. Free radical nitric oxide (•N=O or •NO) possesses an unpaired electron, which is commonly indicated by a dot in its chemical formula. As a heteronuclear diatomic molecule, nitric oxide also contributed to the development of early modern theories of chemical bonding.

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Determine the value of Kc for the following reaction if the equilibrium concentrations are as follows: [PCl5]eq = 0.56 M, [PCl3]eq = 0.23 M, [Cl2]eq = 4.4 M.
PCl5(g) PCl3(g) + Cl2(g)
Answer
a. 0.93
b. 1.1
c. 1.8
d. 0.55
e. 0.76

Answers

option C is correct The value of Kc for the given reaction is 1.804.

To determine the value of Kc for the given reaction, we first need to write the balanced equation:

PCl5 (g) ⇌ PCl3 (g) + Cl2 (g)
The equilibrium concentrations of the reactants and products are given as:
[PCl5]eq = 0.56 M
[PCl3]eq = 0.23 M
[Cl2]eq = 4.4 M

Using the law of mass action, the equilibrium constant expression can be written as:
Kc = [PCl3]eq x [Cl2]eq / [PCl5]eq
Substituting the given equilibrium concentrations, we get:
Kc = (0.23 M) x (4.4 M) / (0.56 M)
Kc = 1.804
Therefore, the value of Kc for the given reaction is 1.804.

The correct option is C
Note that Kc does not have units because the concentrations are in Molar (M), which cancel out in the expression. Kc is a dimensionless quantity and is a constant at a given temperature.

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a buffer solution made from acetic acid (hch3co2) and sodium acetate (nach3co2) was titrated with sodium hydroxide. what is the net ionic equation for the reaction? group of answer choices oh-(aq) hch3co2(aq)

Answers

The net ionic equation for the reaction between acetic acid (HC2H3O2) and sodium hydroxide (NaOH) can be written as:

HC2H3O2 (aq) + OH- (aq) --> H2O (l) + C2H3O2- (aq)

The net ionic equation for the reaction between sodium acetate (NaC2H3O2) and sodium hydroxide (NaOH) can be written as:

NaC2H3O2 (aq) + OH- (aq) --> NaOH (aq) + C2H3O2- (aq)

In the buffer solution mode, both of these reactions occur simultaneously. The acetic acid reacts with the hydroxide ions to form water and acetate ions, while the sodium acetate reacts with the hydroxide ions to form sodium hydroxide and acetate ions. The acetate ions produced by both reactions act as a buffer, helping to maintain the pH of the solution.

So the overall net ionic equation for the reaction in the buffer solution mode can be written as:

HC2H3O2 (aq) + NaOH (aq) --> H2O (l) + NaC2H3O2 (aq)

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polar aprotic solvents enhance the rate of an sn2 reaction byselect answer from the options belowlowering the energy of the nucleophile.stabilizing the cations and the anions.changing the polarizibility of the nucleophile.raising the energy of the nucleophile.

Answers

Polar aprotic solvents play an important role in the Sn2 reaction by enhancing its rate. One of the reasons for this is that polar aprotic solvents lower the energy of the nucleophile. So, the correct option is "lowering the energy of the nucleophile".

This is because polar aprotic solvents are not able to form hydrogen bonds with the nucleophile, which allows the nucleophile to exist in a more reactive state.

Additionally, polar aprotic solvents do not stabilize the cations and anions that are formed during the reaction. This allows the reaction to proceed more quickly since there is no delay caused by the stabilization of these intermediates.  Another reason why polar aprotic solvents enhance the rate of the Sn2 reaction is that they do not change the polarizability of the nucleophile. This means that the nucleophile is able to effectively attack the substrate without being hindered by any changes in its structure or properties.

Finally, polar aprotic solvents raise the energy of the nucleophile, which makes it more reactive and more likely to participate in the reaction. Overall, polar aprotic solvents are important in the Sn2 reaction because they enhance the rate of the reaction by allowing the nucleophile to exist in a more reactive state, without hindering its polarizability or stability. So, the correct option is "lowering the energy of the nucleophile".

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true or false: resonance is considered to be a stabilizing feature. select answer from the options below true false

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The given statement "Resonance is considered to be a stabilizing feature' is true because it allows for the delocalization of electrons, which spreads out the electron density and makes the molecule more stable.


Resonance is considered to be a stabilizing feature because it allows for delocalization of electrons, which spreads out the electron density and makes the molecule more stable. Resonance occurs when a molecule or ion can be represented by two or more Lewis structures that have the same arrangement of atoms but different arrangements of electrons.

In these cases, the actual structure of the molecule or ion is a hybrid of the different Lewis structures, and the electrons are delocalized over the entire molecule or ion. This delocalization of electrons results in greater stability because it lowers the energy of the system by spreading out the negative charge. Therefore, resonance is considered to be a stabilizing feature, and it is an important concept in organic chemistry and biochemistry.

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of the following, which molecule has the smallest bond angle? select one: a. methane, ch4 b. ammonia, nh3 c. water, h2o d. carbon tetrachloride, ccl4 e. more than one of the answers has equally small bond angles.

Answers

The correct answer is B. Ammonia, NH3, has the smallest bond angle. The bond angle is the angle between two bonds that share a common atom. In general, bond angles depend on the repulsion between the electrons in the bonds and lone pairs of electrons on the central atom.

For the bond angles of the given molecules, we need to consider the number of bonds and lone pairs of electrons on the central atom. The general formula for the bond angle is AXnEm, where A is the central atom, X is the bonded atom, n is the number of bonded atoms, and m is the number of lone pairs of electrons. In methane and CH4, we have carbon as the central atom with four bonded hydrogen atoms. Since carbon has no lone pairs of electrons, the bond angle is the maximum possible at 109.5 degrees. Next, carbon tetrachloride, CCl4, has carbon as the central atom with four bonded chlorine atoms. As with methane, carbon has no lone pairs of electrons, so the bond angle is again 109.5 degrees.

Water, H2O, has oxygen as the central atom with two bonded hydrogen atoms and two lone pairs of electrons. The lone pairs repel the bonded hydrogen atoms, causing the bond angle to be less than the maximum at about 104.5 degrees.

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which isomer of c4h9br has only one peak in its 1h nmr spectrum? select answer from the options below 2-bromo-2-methylpropane 2-bromobutane 1-bromo-2-methylpropane 1-bromobutane

Answers

The isomer of C4H9Br that has only one peak in its 1H NMR spectrum is 2-bromo-2-methylpropane. The isomer of C4H9Br that has only one peak in its 1H NMR spectrum is 2-bromo-2-methylpropane.

This is because the molecule has a plane of symmetry that passes through the bromine atom, dividing the molecule into two identical halves. As a result, all the hydrogen atoms are in identical chemical environments, leading to the presence of only one peak in the 1H NMR spectrum at a chemical shift of d 1.8. In contrast, the other isomers of C4H9Br do not have a plane of symmetry and have distinct chemical environments for their hydrogen atoms, resulting in the presence of multiple peaks in their 1H NMR spectra

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Write a reaction that corresponds to kf(co(oh)42−)

Answers

The reaction that corresponds to the formation constant, Kf, of the complex ion:[tex][Co(CO(OH)_4)2]^- : Co_2+ + 2CO(OH)_4^- + 6H_2O ⇌ [Co(CO(OH)_4)2]^- + 6H_3O+[/tex]

A change in the arrangement of the atoms or molecules of two or more substances when they come into contact, producing the creation of one or more new substances. Electrons from one material interacting with electrons from another causes chemical reactions.  

A balanced chemical reaction equation demonstrates the mole relationships of the reactants and products as well as the reactants and products of a chemical reaction. The energy involved in the reaction is frequently stated.

In this reaction, [tex]Co_2^{+}[/tex] ion reacts with two [tex]CO(OH)_4^-[/tex] ions, along with six molecules of water, to form the complex ion, [tex][Co(CO(OH)_4)2]^-[/tex]and six hydronium ions. The Kf value for this reaction represents the equilibrium constant for the formation of the complex ion, and it is given by the expression:

Kf = [tex][[Co(CO(OH)_4)2]^-] / ([Co_2+] * [CO(OH)_4^-]^2)[/tex]

where [ ] denotes concentration in moles per liter.

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a container filled with gas is connected to an open-end manometer that is filled with mineral oil. the pressure in the gas container is 763 mm hg and atmospheric pressure is 734 mm hg. how high will the level rise in the manometer if the densities of hg and mineral oil are 13.6 g/ml and 0.822 g/ml respectively?

Answers

The level rise in the manometer if the densities of hg and mineral oil are 13.6 g/ml and 0.822 g/ml is 480.05 mm.

To determine the height the level will rise in the open-end manometer filled with mineral oil, given that the pressure in the gas container is 763 mm Hg, the atmospheric pressure is 734 mm Hg, and the densities of Hg and mineral oil are 13.6 g/mL and 0.822 g/mL respectively, you can use the following steps:

1. Calculate the pressure difference between the gas container and the atmosphere:

Pressure difference = (Pressure in the gas container) - (Atmospheric pressure)

= 763 mm Hg - 734 mm Hg

= 29 mm Hg

2. Convert the pressure difference from mm Hg to mm of mineral oil:

(29 mm Hg) × (13.6 g/mL) = X mm of mineral oil × (0.822 g/mL)

X = (29 × 13.6) / 0.822

= 480.05 mm of mineral oil

The level will rise by approximately 480.05 mm in the open-end manometer filled with mineral oil.

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A volume of 500.0 ml of 0.120 m naoh is added to 545 ml of 0.250 m weak acid (a=5.44×10^−5). what is the ph of the resulting buffer?

Answers

Therefore, the pH of the resulting buffer is 4.61.pKa is the acid dissociation constant of the weak acid and [salt]/[acid] is the ratio of the salt (the conjugate base of the weak acid) to the acid.

What is buffer ?

A buffer is a solution containing a mixture of a weak acid and its conjugate base or vice versa. It is used to maintain a constant pH in a solution, even when additional acid or base is added. Buffers are important in biology, chemistry, and other sciences, as they help to stabilize the pH of a solution. Buffers are also used in industrial processes, such as water purification, food processing, and pharmaceutical production. Buffers are composed of weak acids and their conjugate bases, and the concentration of each component is carefully maintained to ensure that the pH of the solution remains constant. Buffers can also be used to protect against the effects of temperature changes and other environmental factors.

The pH of the resulting buffer can be calculated using the Henderson-Hasselbalch equation: pH = pKa + log(base/acid) .Therefore, the pH of the resulting buffer is:pH = 5.44 + log(60.0/136.25) = 4.61 .

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what is the percent error from molar mass of unknown acid that would be caused by titrating one drop past the end point. Assume that the mass of the acid is 1.000 g and that 30.00 mL of 0.1 M NaOH was used in the titration

Answers

The percent error from molar mass of unknown acid that would be caused by titrating one drop past the end point is 0.165%.

To calculate the percent error caused by titrating one drop past the end point, we need to first calculate the expected molar mass of the unknown acid based on the volume of NaOH used in the titration, and then calculate the molar mass that would result from titrating one drop past the end point.

The balanced chemical equation for the reaction between NaOH and the unknown acid is:

NaOH + HX → NaX + H2O

From the balanced equation, we can see that 1 mole of NaOH reacts with 1 mole of the unknown acid (HX). Therefore, the number of moles of acid used in the titration can be calculated as:

moles of acid = (0.1 M NaOH) x (0.03000 L) = 0.00300 moles

The mass of the unknown acid used in the titration is given as 1.000 g. Using the molar mass formula, we can calculate the expected molar mass of the unknown acid:

molar mass = mass / moles

molar mass = 1.000 g / 0.00300 moles

molar mass = 333.33 g/mol

Now, to calculate the molar mass that would result from titrating one drop past the end point, we need to assume that an additional volume of NaOH, equivalent to one drop, was added to the solution.

Assuming that the volume of one drop is 0.05 mL, the total volume of NaOH added in the titration would be:

total volume of NaOH = 0.03000 L + 0.00005 L = 0.03005 L

Using this new volume of NaOH, we can calculate the new moles of acid used in the titration:

moles of acid = (0.1 M NaOH) x (0.03005 L)

                      = 0.003005 moles

The molar mass that would result from titrating one drop past the end point can now be calculated as:

molar mass = mass / moles

molar mass = 1.000 g / 0.003005 moles

molar mass = 332.78 g/mol

The percent error caused by titrating one drop past the end point can be calculated as:

percent error = |(expected molar mass - actual molar mass) / expected molar mass| x 100%

percent error = |(333.33 g/mol - 332.78 g/mol) / 333.33 g/mol| x 100%

percent error = 0.165%

Therefore, titrating one drop past the end point would cause a percent error of 0.165% in the calculated molar mass of the unknown acid.

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What can be connected to carbon?

Answers

carbon often forms bonds with hydrogen

assuming all solvents are suitable to recrystallize the desired product, which solvent is best for removing the impurity through a hot filtration? (1 pt)

Answers

The best solvent for removing impurities through hot filtration is one in which the impurity is insoluble at high temperatures, but the desired product remains soluble. The solvent should also have a high boiling point so that it remains liquid at the desired recrystallization temperature. One example of a solvent that can be used for hot filtration to remove impurities is ethanol. Ethanol has a high boiling point (78°C) and is commonly used to recrystallize organic compounds.

If the impurity is soluble in the solvent at high temperatures, it will remain in the solution and cannot be removed through hot filtration. If the desired product is also insoluble at high temperatures, it will precipitate out of the solution and be lost during the filtration process.

Therefore, the best solvent for removing impurities through hot filtration is one that has a high boiling point and is selective for the desired product, meaning the impurities are insoluble or have low solubility in the solvent at high temperatures while the desired product remains soluble. The choice of solvent depends on the specific properties of the impurity and the desired product.

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Calculate E° for the reaction: CH3OH (l) + 3/2 O2→ CO2 (g) + 2H2O (l)

Let Gfo be the guide to get to the E° via ?G for the reaction and assume the redox reaction is in acidic solution.

Answers

The E° (standard reduction potential) for the reaction: CH₃OH (l) + 3/2 O₂→ CO₂ (g) + 2H₂O (l) is 0.411 V.

The first step to calculating for this reaction is to write the balanced half-reactions:

O₂ + 4H+ + 4e⁻ → 2H₂O E° = 1.23 V (reduction)

CH₃OH + H₂O → CO₂ + 6H+ + 6e- (oxidation)

Next, we need to find the standard reduction potential (E°) for the half-reactions. We can use the Nernst equation to relate E° and G°:

G° = -nFE°

where n is the number of electrons transferred, F is Faraday's constant (96,485 C/mol), and G° is the standard free energy change for the reaction.

For the reduction half-reaction, n = 4 and G° = -nFE°, so we can rearrange to solve for E°:

E° = G°/-nF = -(-237.13 kJ/mol)/(4 x 96,485 C/mol) = 0.616 V

For the oxidation half-reaction, n = 6 and G° = -nFE°, so we can solve for E° in the same way:

E° = G°/-nF = -(632.38 kJ/mol)/(6 x 96,485 C/mol) = -0.819 V

To calculate for the overall reaction, we need to add the two half-reactions together, ensuring that the electrons cancel out:

O₂ + 4H+ + 4e⁻ → 2H₂O E° = 1.23 V (reduction)

2CH₃OH + 2H₂O + 3O₂ → 2CO₂ + 8H+ + 8e⁻ (oxidation)

Adding these two half-reactions gives us the overall reaction:

2CH₃OH + 3O₂ → 2CO₂ + 4H₂O E° = 1.23 V - 0.819 V = 0.411 V

Therefore, the standard cell potential for the reaction is 0.411 V.

In acidic solution, the platinum electrode in the SHE cell serves as a reference electrode that does not participate in the reaction. It provides a standard reduction potential of 0 V against which other half-reactions can be measured. The SHE cell acts as the cathode when the half-reaction being studied has a more positive reduction potential than the SHE, and as the anode when the half-reaction has a more negative reduction potential.

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