CHEM 112 Acid and base basics (adapted from Dr. Sushilla Knottenbelt) 1. Sodium azide, NaN3, is sometimes added to water to kill bacteria. Sodium salts are generally soluble, and hence when dissolved in water, Na+ and N3- ions are produced. Azide, N3-, acts as a base. 2. What is the conjugate acid of azide? b. While the balanced equation to show the reaction of azide with water. Label acid, base and conjugue acid and base Morular basis for acid strength 2.a. What is the difference between a strong acid and a weak acid? b. The following exercise asks to you to deduce the rules for acid strength by comparing similarities and differences between strong and weak acids. The strong acids are: HCI, HBr,HI, HNO, H2SO4 and HCIO. For the purposes of this course, assume ALL other acids are weak! i For naming purposes in CHEM 121, you divided all acids into 2 categories - binary acids and oxyacids. Classify each strong acid as binary or oxy.

Answers

Answer 1

1. The conjugate acid of azide, N₃⁻, is hydrazoic acid, HN₃.

2.a. The difference between a strong acid and a weak acid lies in their ability to dissociate in water.

b. Strong acids have similar properties: they have high acidity, are very reactive, and completely dissociate in water.

c. The strong acids HCI, HBr, HI, and HCIO are binary acids, while HNO₃ and H₂SO₄ are oxyacids.

In the presence of water, the following reaction occurs: N₃⁻ + H₂O ↔ OH⁻ + HN₃. In this reaction, azide acts as a base, while water acts as an acid. The conjugate base of water, OH⁻, is formed, while the conjugate acid of azide, HN₃, is formed.

A strong acid completely dissociates in water, meaning that all of its molecules break apart into ions. A weak acid only partially dissociates, meaning that only some of its molecules break apart into ions.

Weak acids have lower acidity, are less reactive, and only partially dissociate in water. The rules for acid strength can be deduced from these similarities and differences. Strong acids are typically composed of a single element (e.g. HCl, HBr, HI) or contain multiple oxygens (e.g. HNO₃, H₂SO₄, HCIO). Weak acids typically contain one or more of the following elements: carbon, sulfur, or nitrogen. Additionally, the strength of an acid is related to the stability of its conjugate base: the weaker the acid, the stronger its conjugate base.

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Answer 2

1. The conjugate acid of azide, N₃⁻, is hydrazoic acid, HN₃.

2.a. The difference between a strong acid and a weak acid lies in their ability to dissociate in water.

b. Strong acids have similar properties: they have high acidity, are very reactive, and completely dissociate in water.

c. The strong acids HCI, HBr, HI, and HCIO are binary acids, while HNO₃ and H₂SO₄ are oxyacids.

In the presence of water, the following reaction occurs: N₃⁻ + H₂O ↔ OH⁻ + HN₃. In this reaction, azide acts as a base, while water acts as an acid. The conjugate base of water, OH⁻, is formed, while the conjugate acid of azide, HN₃, is formed.

A strong acid completely dissociates in water, meaning that all of its molecules break apart into ions. A weak acid only partially dissociates, meaning that only some of its molecules break apart into ions.

Weak acids have lower acidity, are less reactive, and only partially dissociate in water. The rules for acid strength can be deduced from these similarities and differences. Strong acids are typically composed of a single element (e.g. HCl, HBr, HI) or contain multiple oxygens (e.g. HNO₃, H₂SO₄, HCIO). Weak acids typically contain one or more of the following elements: carbon, sulfur, or nitrogen. Additionally, the strength of an acid is related to the stability of its conjugate base: the weaker the acid, the stronger its conjugate base.

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Related Questions

sort the four mechanistic steps involved in grubbs alkene metathesis by their name and the order in which they occur.

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The four mechanistic steps involved in Grubbs alkene metathesis are initiation, propagation, isomerization, and termination.

The order in which they occur is initiation, propagation, isomerization, and termination. During initiation, the metal catalyst forms a reactive species that can break the double bond of the alkene.

Propagation then involves the transfer of the alkylidene group from the catalyst to the other alkene. Isomerization occurs when the double bond is rearranged, creating a new alkene that can undergo metathesis.

Finally, termination happens when two of the reactive species combine, deactivating the catalyst. This sequence of events is crucial to the success of alkene metathesis reactions and helps to explain the selectivity and efficiency of Grubbs catalysts.

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2-methyl propanoic acid and bunaoic acid are structural

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2-methyl propanoic acid and butanoic acid are both structural isomers.

2-methyl propanoic acid and bunaoic acid have the same molecular formula (C₄H₈O₂), but their atoms are arranged differently in their chemical structure. Specifically, 2-methyl propanoic acid has a methyl group (CH₃) attached to the second carbon in the chain, while butanoic acid has a straight carbon chain with no branches. This difference in structure can affect their physical and chemical properties, such as boiling point and reactivity.

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what is the formal charge on the chlorine atom if chlorine forms one single bond and one double bond to oxygen? (if you haven't already done so make sure to draw the resonance structures first).

Answers

The formal charge on the chlorine atom when it forms one single bond and one double bond to oxygen is +2.

To determine the formal charge on the chlorine atom when it forms one single bond and one double bond to oxygen, we can follow these steps:
1. Draw the resonance structures: In this case, there are two resonance structures. In the first resonance structure, chlorine forms a single bond with one oxygen atom and a double bond with another oxygen atom. In the second resonance structure, the positions of the single and double bonds between chlorine and oxygen atoms are reversed.
2. Calculate the formal charge: The formula for calculating the formal charge is:
Formal Charge = (Valence Electrons of the Atom) - (Non-Bonding Electrons + 1/2 Bonding Electrons)
3. Determine the valence electrons for chlorine: Chlorine is in Group 17, so it has 7 valence electrons.
4. Determine the non-bonding and bonding electrons: In both resonance structures, chlorine forms 1 single bond (2 electrons) and 1 double bond (4 electrons) with oxygen atoms. Thus, chlorine has a total of 6 bonding electrons. There is one lone pair of electrons (2 non-bonding electrons) on the chlorine atom.
5. Apply the formula:
Formal Charge (Cl) = 7 (Valence Electrons) - (2 Non-Bonding Electrons + 1/2 * 6 Bonding Electrons)
Formal Charge (Cl) = 7 - (2 + 3)
Formal Charge (Cl) = 7 - 5
Formal Charge (Cl) = +2

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80.0 ml of 0.200 m naoh is mixed with 20.0ml of 0.600 m hcl. whats the concentration of the remaining oh

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The concentration of the remaining OH⁻ ions is 0.040 M. When NaOH and HCl react, they form a neutralization reaction, producing water and a salt (NaCl). The balanced chemical equation is:

To find the concentration of the remaining OH- ions, we first need to determine the amount of HCl that reacted with the NaOH.

Using the balanced chemical equation: NaOH + HCl -> NaCl + H2O

We know that 1 mole of NaOH reacts with 1 mole of HCl to form 1 mole of water.

Therefore, the amount of HCl that reacted with the NaOH is:

0.200 moles/L x 0.0800 L = 0.0160 moles

0.600 moles/L x 0.0200 L = 0.0120 moles

Since HCl and NaOH react in a 1:1 ratio, the limiting reagent is NaOH and 0.0160 moles of NaOH were used in the reaction.

The amount of NaOH that remains is:

0.0200 moles - 0.0160 moles = 0.0040 moles

The total volume of the solution is:

80.0 mL + 20.0 mL = 100.0 mL = 0.1000 L

Therefore, the concentration of the remaining OH- ions is:

0.0040 moles / 0.1000 L = 0.040 M

So the concentration of the remaining OH- ions is 0.040 M.

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indicate whether each of the following molecules obeys the octet rule or identify the exception that they exhibits a. no2 b. sf4 c. bf3 d. xef2 e. co2

Answers

Since NO2 possesses one unpaired electron on the nitrogen atom, giving it a total of 17 valence electrons, it defies the octet rule.

Because SF4 has 34 valence electrons and each atom contains an entire octet of electrons, it complies with the octet rule.

Because BF3 has 24 valence electrons and each atom contains an entire octet of electrons, it complies with the octet rule.

XeF2, which possesses two unpaired electrons on the xenon atom and a total of 22 valence electrons, defies the octet rule.

Because CO2 has 16 valence electrons and each atom contains an entire octet of electrons, it complies with the octet rule.

Except for hydrogen, which has a complete valence shell with two electrons, atoms often form molecules with complete valence shells of eight electrons each, according to the octet rule. The octet rule can be broken when there are too few valence electrons or when there are more valence electrons than the required eight. The nitrogen atom in NO2 possesses an unpaired electron, resulting in an odd number of valence electrons and an insufficient octet. Two unpaired electrons on the xenon atom in XeF2 result in an incomplete octet. Both SF4 and BF3 have an atom with a fully completed valence shell of eight electrons, which satisfies the octet rule. CO2 has a full octet on it.

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Calculate the freezing point of a 2.2 m aqueous sucrose solution. (Assume that Kf for water is 1.86∘C/m.)Express the temperature to two significant figures and include the appropriate units.freezing point = _____

Answers

The freezing point is -4.1°C.

To calculate the freezing point of a 2.2 m aqueous sucrose solution, you can use the formula:

ΔTf = Kf × m

where ΔTf is the change in freezing point, Kf is the molal freezing-point depression constant for water (1.86°C/m), and m is the molality of the solution (2.2 m).

ΔTf = 1.86°C/m × 2.2 m = 4.092°C

Since the normal freezing point of water is 0°C, the new freezing point will be:

Freezing point = 0°C - 4.092°C = -4.092°C

Expressed to two significant figures and with appropriate units, the freezing point is -4.1°C.

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Brainliest!!!

Explain how you know 3 moles of gas were contained at the maximum volume of 66.2 L. Use the data tables to explain how you knew.



Hint!! the airbag popped above 66.2, the only ones that protected the crash test dummy and didn't pop was 66.2 L.



66.2 is your evidence

Answers

When the pressure (P) and temperature (T) are constant, the volume (V) constituting an ideal gas (n) directly varies with the amount of moles constituting the gas (n).

A measurement of three-dimensional space is volume. It is frequently expressed quantitatively using SI-derived units, like the cubic metre or litre, or different imperial or US-standard units, including the gallon, quart and cubic inch. Volume and length (cubed) have a symbiotic relationship.

The volume of an item is typically thought of as its capacity, not as the amount of space it takes up. In other words, the volume is the quantity of fluid (liquid or gas) that the container may hold. When the pressure (P) and temperature (T) are constant, the volume (V) constituting an ideal gas (n) directly varies with the amount of moles constituting the gas (n).

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what is the ph of a saturated solution of ni(oh)2? ni(oh)2 has ksp = 2.0 x 10^–15A) 4.80 B) 8.90C) 5.10 D) 9.20 E) 7.00

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To determine the pH of a saturated solution of Ni(OH)2 with a Ksp of 2.0 x 10^-15, we'll follow these steps:

1. Write the dissociation equation for Ni(OH)2: Ni(OH)2(s) ⇌ Ni2+(aq) + 2OH-(aq)
2. Set up the expression for Ksp: Ksp = [Ni2+][OH-]^2
3. Let x be the concentration of Ni2+ and 2x be the concentration of OH-. Then, Ksp = (x)(2x)^2.
4. Plug in the given Ksp value and solve for x: 2.0 x 10^-15 = x(2x)^2.
5. Calculate the concentration of OH- ions (2x).
6. Use the OH- concentration to find the pOH using the formula: pOH = -log[OH-].
7. Convert pOH to pH using the relationship: pH + pOH = 14.

So, the pH of the saturated solution of Ni(OH)2 is approximately 9.20 (Option D).

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To determine the pH of a saturated solution of Ni(OH)2 with a Ksp of 2.0 x 10^-15, we'll follow these steps:

1. Write the dissociation equation for Ni(OH)2: Ni(OH)2(s) ⇌ Ni2+(aq) + 2OH-(aq)
2. Set up the expression for Ksp: Ksp = [Ni2+][OH-]^2
3. Let x be the concentration of Ni2+ and 2x be the concentration of OH-. Then, Ksp = (x)(2x)^2.
4. Plug in the given Ksp value and solve for x: 2.0 x 10^-15 = x(2x)^2.
5. Calculate the concentration of OH- ions (2x).
6. Use the OH- concentration to find the pOH using the formula: pOH = -log[OH-].
7. Convert pOH to pH using the relationship: pH + pOH = 14.

So, the pH of the saturated solution of Ni(OH)2 is approximately 9.20 (Option D).

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a 50.8-mlml sample of a 6.6 mm kno3kno3 solution is diluted to 1.20 l What volume of the diluted solution contains 17.0 g of KNO3? (Hint: Figure out the concentration of the diluted solution first.)

Answers

The volume of the diluted solution which contains 17.0 g of KNO₃ is approximately 610 mL.

First, we need to find the concentration of the diluted solution.

To do this, we'll use the formula: C₁V₁ = C₂V₂

C₁ = initial concentration (6.6 M)
V₁ = initial volume (50.8 mL)
C₂ = final concentration (unknown)
V₂ = final volume (1.20 L = 1200 mL)

6.6 M × 50.8 mL = C₂ × 1200 mL

After calculating, we find that C₂ (the final concentration) is 0.2755 M.

Next, we need to determine the volume of the diluted solution that contains 17.0 g of KNO₃. We'll use the formula: mass = volume × concentration × molar mass

Molar mass of KNO₃ = 39.1 g/mol (K) + 14.0 g/mol (N) + 3 × 16.0 g/mol (O) = 101.1 g/mol

17.0 g = volume × 0.2755 M × 101.1 g/mol
volume = 0.610 L = 610 mL

Now, we can solve for the volume of the diluted solution that contains 17.0 g of KNO₃. After calculating, the volume is approximately 610 mL.

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Given the UNBALANCED equation:
CH4+O2⟶CO2+H2OΔH=−890.0kJCH4+O2⟶CO2+H2OΔH=−890.0kJ
The heat liberated when 88.57 grams of methane (CH4) are burned in an excess amount of oxygen is ________ kJ.

Answers

The heat liberated when 88.57 grams of methane are burned is -4,909.2 kJ, or approximately -4,910 kJ (rounded to three significant figures).

To solve this problem, we need to first balance the chemical equation:

CH4 + 2O2 ⟶ CO2 + 2H2OΔH=−890.0kJ

Now, we can use stoichiometry to calculate the amount of heat liberated when 88.57 grams of methane are burned. First, we need to convert the mass of methane to moles:

88.57 g CH4 × (1 mol CH4/16.04 g CH4) = 5.52 mol CH4

Next, we can use the balanced equation to determine the mole ratio between CH4 and ΔH:

1 mol CH4 : -890.0 kJ

So, the heat liberated when 5.52 mol CH4 are burned is:

5.52 mol CH4 × (-890.0 kJ/1 mol CH4) = -4,909.2 kJ

However, the question asks for the heat liberated when 88.57 grams of methane are burned. To convert from moles to grams, we can use the molar mass of CH4:

5.52 mol CH4 × (16.04 g CH4/1 mol CH4) = 88.57 g CH4

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predict whether fe3 can oxidize i − to i2 under standard-state conditions.

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Fe3+ cannot oxidize I- to I2 under standard-state conditions.

Under standard-state conditions, Fe3+ has a standard reduction potential of +0.77 V, while I- has a standard reduction potential of -0.54 V. Since the reduction potential of Fe3+ is greater than that of I-, Fe3+ has a greater tendency to be reduced than I-.

To explain further, for a redox reaction to occur, the reducing agent must have a higher reduction potential than the oxidizing agent. In this case, Fe3+ is the oxidizing agent and I- is the reducing agent. However, since the reduction potential of Fe3+ is higher than that of I-, Fe3+ cannot oxidize I- to I2.

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iron (as fe2 ) is a) toxic at all concentrations. b) safe at all concentrations. c) toxic at high concentrations, essential at low concentration. d) toxic at high concentration, not known to be essential

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Iron (as Fe²⁺) is toxic at high concentrations and essential at low concentrations.

Iron is an essential micronutrient required for many biological processes, such as oxygen transport, energy production, and DNA synthesis. However, excessive iron accumulation can cause oxidative stress and damage to cells, leading to various diseases, iron can become toxic, leading to a condition called iron overload. Therefore, maintaining a balance of iron is crucial for health. Iron toxicity can occur at high concentrations and can lead to symptoms such as abdominal pain, vomiting, and even death.

However, at low concentrations, iron is essential for normal physiological functioning. For example, iron deficiency can lead to anemia and impaired cognitive function. Therefore, it is important to ensure adequate iron intake, but also to avoid excessive iron consumption.

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A volume of 500.0 mL500.0 mL of 0.170 M0.170 M NaOHNaOH is added to 615 mL615 mL of 0.250 M0.250 M weak acid (Ka=8.93×10−5).(Ka=8.93×10−5). What is the pHpH of the resulting buffer?
HA(aq)+OH−(aq)⟶H2O(l)+A−(aq)

Answers

To solve this problem, we can use the Henderson-Hasselbalch equation, which relates the pH of a buffer solution to the pKa and the ratio of the concentrations of the conjugate acid [tex]pH = pKa + log([A-]/[HA])[/tex]. he pH of the resulting buffer is 4.90

First, we need to determine the concentrations of the weak acid (HA) and its conjugate base (A-) after mixing with NaOH. This is a neutralization reaction, and the number of moles of NaOH added is equal to the number of moles of H+ in the weak acid: moles H+ = (0.615 L)(0.250 mol/L) = 0.154 mol H+

To neutralize this amount of H+, we need the same amount of OH-, which can be calculated using the concentration and volume of the NaOH solution: moles OH- = (0.500 L)(0.170 mol/L) = 0.085 mol OH-

The concentration of the weak acid and its conjugate base can be calculated using the volumes of the solutions and the moles of each species: [HA] = moles HA / total volume = 0.109 mol / (0.615 L + 0.500 L) = 0.107 M

[A-] = moles A- / total volume = 0.085 mol / (0.615 L + 0.500 L) = 0.083 M Now we can use the Henderson-Hasselbalch equation to find the pH of the buffer: [tex]pH = pKa + log([A-]/[HA])[/tex]

[tex]pH = -log(8.93×10^-5) + log(0.083/0.107)[/tex]

pH = 4.90

Therefore, the pH of the resulting buffer is 4.90

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FLC Chem 305 Lab Exercise #9 - Solutions Part C Step 7: Which substance is more dense, mineral oil or water? Mineral oil is more doviseGive experimental evidence that supports your answer. water is polar when pu't both solutions in the tube the mineral oil dropped to the bottom of the test tube. L ow Part C Step 8: Make a diagram of your observations. Label the color of each layer. Jlayers race loyers Mi mineral oil clear VE Water - clear C oil Coil is thicker Olse, water both Mineral Clear Part C Step 9: Make a diagram of your observations. Identify which substance (l2 or 1') is in each layer, and label the color of each layer. 1. In which solvent is 12 more soluble? In which solvent is I' more soluble? Give experimental evidence that supports your answer. 2. Is la polar or non-polar?? Draw its Lewis structure and find out!!! Based on the polarity of the molecule, explain why iodine is more soluble in one solvent than the other. Iz is non-polar. Because iodine is nonpolar. What did you learn from this experiment?

Answers

Iodine was found to be more soluble in mineral oil than in water, most of to its non-polar nature. This experiment shows how important it is to consider the polarity and density of substances.

Which of the following liquids has a higher density: oil or water?

Water. Water molecules are more densely packed together than the lengthy molecules that comprise oil. Water's oxygen atoms are smaller and heavier than oil's carbon atoms. This leads to water being denser than oil.

What is denser than water?

Because a piece of clay weighs more than the same amount, or volume, of water, clay is dense than water. Because clay is denser than water, a ball of clay sinks in water, no matter how big or little it is.

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What is the pressure in a 28.0-LL cylinder filled with 32.2 gg of oxygen gas at a temperature of 334 KK ?
Express your answer to three significant figures with the appropriate units.

Answers

The pressure in a 28.0-L cylinder filled with 32.2 g of oxygen gas at a temperature of 334 K is 0.985 atm.

To find the pressure in the cylinder, we can use the Ideal Gas Law equation: PV = nRT, where P is pressure, V is volume, n is the number of moles, R is the ideal gas constant, and T is the temperature.

First, we need to convert the mass of oxygen gas to moles. The molar mass of oxygen gas (O₂) is 32.0 g/mol.

n = (32.2 g) / (32.0 g/mol) = 1.006 mol

Now, we have all the necessary information to solve for the pressure (P). The volume (V) is 28.0 L, the number of moles (n) is 1.006 mol, the ideal gas constant (R) is 0.0821 L·atm/mol·K, and the temperature (T) is 334 K.

PV = nRT
P(28.0 L) = (1.006 mol)(0.0821 L·atm/mol·K)(334 K)
P = (1.006 mol × 0.0821 L·atm/mol·K × 334 K) / 28.0 L

P = 0.985 atm

So, the pressure in the cylinder is 0.985 atm, expressed to three significant figures with the appropriate units.

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calculate the mass of solid sodium acetate required to mix with 100.0 ml of 0.1 m acetic acid to prepare a ph 4 buffer. the ka of acetic acid is 1.8⋅10^–5.

Answers

1.43 g of solid sodium acetate is required to prepare a buffer solution with a pH of 4 when mixed with 100.0 ml of 0.1 M acetic acid.

To prepare a buffer of pH 4, we need to use the Henderson-Hasselbalch equation:

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

where pH is the desired pH, pKa is the acid dissociation constant of acetic acid, [A-] is the concentration of the acetate ion, and [HA] is the concentration of undissociated acetic acid.

Rearranging the equation gives:

[A-]/[HA] = 10[tex]^(pH - pKa)[/tex]

Substituting the values:

[A-]/[HA] = 10(4 - (-log10(1.8⋅10⁻⁵))) = 1.74

The ratio of [A-]/[HA] is equal to the ratio of their masses, so we can use this ratio to calculate the mass of solid sodium acetate required to prepare the buffer.

The molar mass of sodium acetate is 82.03 g/mol. We can assume that the volume of the solution remains constant after adding the solid sodium acetate. Therefore, the moles of acetic acid initially present in the solution will be equal to the moles of acetic acid and acetate ion in the buffer solution:

0.1 mol/L x 0.1 L = 0.01 mol acetic acid

Since [A-]/[HA] = 1.74, the concentration of acetate ion is:

[A-] = 1.74 x [HA] = 1.74 x 0.1 M = 0.174 M

The moles of acetate ion required in the buffer solution can be calculated as:

moles of acetate ion = [A-] x volume of buffer solution

= 0.174 M x 0.1 L

= 0.0174 mol

The mass of sodium acetate required can be calculated as:

mass = moles x molar mass

= 0.0174 mol x 82.03 g/mol

= 1.43 g

Therefore, 1.43 g of solid sodium acetate is required to prepare a buffer solution with a pH of 4 when mixed with 100.0 ml of 0.1 M acetic acid.

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The co-existance curve s/l has a _____ slope (not water)

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The co-existence curve s/l, also known as the solid-liquid coexistence curve, represents the phase equilibrium between a solid and a liquid at various temperatures and pressures. The slope of this curve can provide important information about the thermodynamic properties of the system.

Typically, the slope of the co-existence curve s/l is positive, indicating that the melting temperature of the solid increases as pressure increases. However, since you have specified that the substance in question is not water, it is important to consider the specific properties of the material.

The slope of the co-existence curve s/l can depend on factors such as the crystal structure of the solid, the intermolecular forces between the solid and liquid phases, and the molecular size and shape of the substance. For example, some materials may exhibit negative slopes, indicating that the melting temperature decreases as pressure increases.

Therefore, without further information about the substance in question, it is difficult to determine the exact slope of the co-existence curve s/l. It is important to note that the slope can vary significantly between different materials, and can provide valuable insight into their thermodynamic behavior.

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calculate the change in entropy for the vaporization of ethanol given that ethanol has ∆vaph = 38.6 kj/mol and a boiling point of 78.3 °c.

Answers

The change in entropy for the vaporization of ethanol is approximately 109.8 J/mol·K.

To calculate the change in entropy (ΔS) for the vaporization of ethanol, we will use the formula:
ΔS = ΔHvap / T Where ΔHvap is the enthalpy of vaporization, and T is the temperature in Kelvin.
Given:
ΔHvap = 38.6 kJ/mol
Boiling point = 78.3 °C
First, convert the boiling point to Kelvin:
T = 78.3 + 273.15 = 351.45 K
Now, plug the values into the formula:
ΔS = (38.6 kJ/mol) / (351.45 K)
Since 1 kJ is equal to 1000 J, we need to convert kJ to J:
ΔS = (38.6 * 1000 J/mol) / (351.45 K)
ΔS = 38600 J/mol / 351.45 K
ΔS ≈ 109.8 J/mol·K

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A solution is prepared by dissolving 0.26 mol of hydrofluoric acid and 0.23 mol of sodium fluoride in water sufficient to yield 1.00 L of solution. The addition of 0.05 mol of HCl to this buffer solution causes the pH to drop slightly. The pH does not decrease drastically because the HCl reacts with the ________ present in the buffer solution. The Ka of hydrofluoric acid is 6.8 × 10-4.
fluoride ion
H2O
hydrofluoric acid
H3O+

Answers

The HCl reacts with the fluoride ion (F⁻) present in the buffer solution to maintain the pH of the solution. Option A is correct.

The buffer solution is a mixture of hydrofluoric acid (HF) and its conjugate base, fluoride ion (F⁻), so the HCl will react with the F⁻ ion to maintain the pH of the solution.

The reaction that occurs when HCl is added to the buffer solution is;

HCl + F⁻ → HF + Cl⁻

The HCl reacts with the F⁻ ion to form HF and Cl⁻, which shifts the equilibrium of the buffer solution towards HF. This means that some of the F⁻ ions are converted into HF molecules, which helps to maintain the pH of the solution.

The buffer solution resists changes in pH because it contains a weak acid and its conjugate base, which can react with any added acid or base to prevent large changes in the concentration of H₃O⁺ or OH⁻ ions in the solution.

Hence, B. is the correct option.

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--The given question is incomplete, the complete question is

"A solution is prepared by dissolving 0.26 mol of hydrofluoric acid and 0.23 mol of sodium fluoride in water sufficient to yield 1.00 L of solution. The addition of 0.05 mol of HCl to this buffer solution causes the pH to drop slightly. The pH does not decrease drastically because the HCl reacts with the ________ present in the buffer solution. The Ka of hydrofluoric acid is 6.8 × 10-4. A) fluoride ion B) H₂O C) hydrofluoric acid D) H₃O⁺"--

the central atom in xef2 ion has [ select ] bonding groups of electrons and [ select ] lone pairs of electrons. the electron geometry of the molecule [ select ] , and the molecular geometry is

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The central atom in XeF2 ion has two bonding groups of electrons and three lone pairs of electrons. The electron geometry of the molecule is trigonal bipyramidal.

This means that the total number of electron groups around the central atom is five. The electron geometry of the molecule is trigonal bipyramidal because the five electron groups are arranged in a way that maximizes the distance between them. The two bonding pairs are located in the equatorial plane, while the three lone pairs are located in the axial positions.

The molecular geometry of XeF2 is linear because the two bonding pairs repel each other and move away from each other to the maximum distance possible, creating a straight line. The three lone pairs occupy the equatorial plane, but they do not affect the molecular geometry because they are not involved in bonding.

In summary, XeF2 has a trigonal bipyramidal electron geometry due to the presence of five electron groups around the central atom, and a linear molecular geometry due to the repulsion between the two bonding pairs. The three lone pairs occupy the equatorial plane but do not affect the molecular geometry.

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unknown weak base with a concentration of .17m has a ph of 9.42. What is the Kb of this base? -

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We can use the relationship between the pH, pOH, and Kb of a weak base:

Kb = (1.0 x 10^-14) / (OH^-)^2

First, we need to find the pOH of the solution, which is:

pOH = 14.00 - pH = 14.00 - 9.42 = 4.58

Next, we can find the concentration of hydroxide ions in the solution using the equation for the dissociation of water:

Kw = [H+][OH-] = 1.0 x 10^-14

[OH-] = Kw / [H+] = 1.0 x 10^-14 / 10^-9.42 = 3.98 x 10^-6 M

Now we can substitute these values into the Kb equation to solve for Kb:

Kb = (1.0 x 10^-14) / (3.98 x 10^-6)^2 = 6.29 x 10^-10

Therefore, the Kb of the unknown weak base is 6.29 x 10^-10.

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the ph of a 0.02 m solution of an unknown weak acid is 8.1. what is the pka of this acid

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The pKa of the unknown weak acid is 5.8.

To find the pKa of the unknown weak acid, we need to use the Henderson-Hasselbalch equation:

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

Where [A-] is the concentration of the conjugate base and [HA] is the concentration of the acid.

Since the solution is weak, we can assume that the majority of the acid has not dissociated and that [HA] ≈ [H+] ≈ 10^-8.1.

The concentration of the conjugate base [A-] can be calculated using the acid dissociation constant (Ka):

Ka = [H+][A-]/[HA]

Therefore, [A-] = Ka/[H+] = 10^-14/Ka

Substituting these values into the Henderson-Hasselbalch equation:

pKa = 8.1 + log(10^-14/Ka / 10^-8.1)

pKa = 8.1 - log(Ka) + log(10^6.9)

pKa = 14 - 8.1 + log(10^6.9) = 5.8

Therefore, the pKa of the unknown weak acid is 5.8.

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For each of the following pairs of elements, choose the one that correctly completes the following table. K and Cs Te and Br Ge and Se The more favorable (exothermic) electron affinity _______ _______ _______ The higher ionization energy _______ _______ _______ The larger size (atomic radius) _______ _______ _______

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The higher ionization energy: K > Te > Ge. The larger size (atomic radius): Cs > Te > Se. Ionization energy is the energy required to remove an electron from an atom or ion in its gaseous state.

For each of the following pairs of elements, choose the one that correctly completes the following table:
K and Cs
Te and Br
Ge and Se
The more favorable (exothermic) electron affinity:
Br > Se > Cs
The higher ionization energy:
K > Te > Ge
The larger size (atomic radius):
Cs > Te > Se

Ionization energy is the energy required to remove an electron from an atom or ion in its gaseous state. The higher the ionization energy of an atom or ion, the more difficult it is to remove an electron from it.

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Predict the product obtained when pyrrole is treated with a mixture of nitric acid and sulfuric acid at 0ºC. Please show detailed mechanism

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The result of treating pyrrole with a solution of nitric and sulfuric acids at zero degree temperature is 2-nitropyrrole.

What is the reaction's mechanism?

Step 1: Pyrrole protonation:

To create the pyrrole cation, sulfuric acid protonates the pyrrole nitrogen.

Nitric Acid Attack in Step 2:

Nitric acid attacks the pyrrole cation at the 2-position by acting as an electrophile.

Production of the Nitronium Ion in Step 3:

The sulfuric acid subsequently protonates the nitric acid, resulting in the formation of the nitronium ion ([tex]NO^{+} _{2}[/tex]).

Electrophilic Aromatic Substitution, the fourth step:

Being an electrophile, the nitronium ion functions as a replacement at the pyrrole's 2-position.

Deprotonation, at step five:

The ultimate product, 2-nitropyrole, is created when the intermediate is deprotonated by sulfuric acid.

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given an enzyme with a km for substrate of 12 and a vmax of 96. what would be the rate of enzyme activity if the concentration of substrate was 6.2 ?

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In these circumstances, the rate of enzyme activity would be 2.74 units per second. Depending on the exact assay used to evaluate the reaction, the units of enzyme activity will vary.

From Km and Vmax, how do you compute substrate concentration?

As an inverse measure of affinity, this is typically written as the enzyme's Km (Michaelis constant). In real life, the substrate concentration at which the enzyme may achieve half of Vmax is known as Km. Consequently, the reaction's Vmax increases as the amount of enzyme increases.

(V = Vmax * [S] / (Km + [S])

where [S] is the concentration of the substrate, [V] is the rate of enzyme activity, [Vmax] is the maximum rate of the enzyme-catalyzed reaction, and [Km] is the Michaelis constant.

Substituting the given values:

V = 96 * 6.2 / (12 + 6.2)

V = 49.92 / 18.2

V ≈ 2.74

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3 h2 (g) n2 (g) ⇌ 2 nh3 (g) if this reaction is at equilibrium and the concentration of n2 is decreased, what will happen to the concentration of h2 and nh3

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If the concentration of N2 is decreased, the equilibrium position of the reaction will shift towards the side with more N2 to compensate. In this case, the reaction will shift towards the side with more NH3 and H2. Therefore, the concentration of NH3 and H2 will increase, while the concentration of N2 will decrease.

Based on the reaction 3 H₂(g) + N₂(g) ⇌ 2 NH₃(g), if the concentration of N₂ is decreased at equilibrium, the reaction will shift to the left to re-establish equilibrium. As a result, the concentration of H₂ will increase, and the concentration of NH₃ will decrease. This follows Le Chatelier's principle, which states that if a change is made to a system at equilibrium, the system will adjust to counteract the change and re-establish equilibrium.

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carbonic acid, h2co3, is a diprotic acid with ka1 = 4.2 x 10-7 and ka2 = 4.7 x 10-11. calculate the ph of a 0.080 m solution of carbonic acid.

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Carbonic acid, H2CO3, is a diprotic acid with two dissociation constants: Ka1 =[tex]4.2 x 10^-7[/tex] and Ka2 = [tex]4.7 x 10^-11[/tex]. The pH of a 0.080 M solution of carbonic acid is found to be 7.40.

Let's denote the concentration of H2CO3 as [H2CO3], the concentration of HCO3- (the first deprotonated form) as [HCO3-], and the concentration of CO32- (the second deprotonated form) as [CO32-]. At equilibrium, the following relationships hold: [H2CO3] = [H+] + [HCO3-] [HCO3-] = [H+] + [CO32-]

We also know that the total concentration of carbonic acid is 0.080 M, so: [H2CO3] + [HCO3-] + [CO32-] = 0.080 M. At equilibrium, the ratio of [HCO3-]/[H2CO3] is given by the dissociation constant Ka1: Ka1 = [H+][HCO3-]/[H2CO3]

Since Ka1 is small compared to the initial concentration of carbonic acid, we can assume that x (the concentration of H+) is much smaller than the initial concentration of H2CO3. Therefore, we can approximate[H2CO3] ≈ 0.080 M [HCO3-] ≈ x [CO32-] ≈ 0

[tex]x = Ka1[H2CO3]/([H2CO3] + Ka1) = (4.2 x 10^-7)(0.080 M)/(0.080 M + 4.2 x 10^-7) ≈ 3.97 x 10^-8 M[/tex]The pH is given by: pH = -log[H+] We can use the relationship between [H+] and x to calculate the pH: [tex][H+] ≈ x = 3.97 x 10^-8 M, pH = -log(3.97 x 10^-8) ≈ 7.40.[/tex]

Therefore, the pH of a 0.080 M solution of carbonic acid is approximately 7.40.

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calculate the solubility of silver chloride in a solution that is 0.130 mm in nh3nh3 (initial concentration).

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The solubility of [tex]AgCl[/tex]in a solution that is 0.130 M in [tex]NH3[/tex] is 1.3 × 10⁻⁵ M.

What is the solubility of silver chloride in a solution that is 0.130 M in [tex]NH3[/tex], given that the formation constant of [tex]Ag(NH3)2[/tex]+ is 1.6 × 107?

To calculate the solubility of silver chloride ([tex]AgCl[/tex]) in a solution that is 0.130 M in [tex]NH3[/tex], we need to use the following equilibrium reaction:

[tex]AgCl(s)[/tex]+ [tex]2 NH3(aq)[/tex]  ⇌ [tex]Ag(NH3)2+(aq) + Cl-(aq)[/tex]

The equilibrium constant for this reaction is called the formation constant of [tex]Ag(NH3)2[/tex]+ and has a value of Kf = 1.6 × 107.

To solve this problem, we need to use the equation for the formation constant:

[tex]Kf = [Ag(NH3)2+][Cl-]/[AgCl][NH3]2[/tex]

We can rearrange this equation to solve for the solubility of [tex]AgCl[/tex]:

[tex][AgCl] = [Ag(NH3)2+][Cl-]/(Kf[NH3]2)[/tex]

Substituting the values given in the problem, we have:

[[tex]AgCl[/tex]] = (x)(0.130)/(1.6 × 107 × 0.1302)

where x is the concentration of [tex]Ag(NH3)2[/tex]+ and [tex]Cl-[/tex] ions at equilibrium.

Solving for x, we get:

x = 1.3 × 10⁻⁵ M

Therefore, the solubility of [tex]AgCl[/tex]in a solution that is 0.130 M in NH3 is 1.3 × 10⁻⁵ M.

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If you added 5.0 mL of 2.0M NaOH to 45.0 mL of pure water what would the resulting ApH of the solution be? (Hint: Kw =[H30+][OH]) 5
6.30 7 14

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The resulting pH of the solution would be 14, as the addition of 5.0 mL of 2.0M NaOH to 45.0 mL of water completely dissociates into OH- ions, resulting in a concentration of 2.0M OH- ions.

When 5.0 mL of 2.0 M NaOH is added to 45.0 mL of pure water, the resulting solution will have a diluted concentration of NaOH. To find the new concentration, use the formula:

C1V1 = C2V2

Where C1 and V1 are the initial concentration and volume of NaOH, and C2 and V2 are the final concentration and volume of the solution. In this case:

(2.0 M)(5.0 mL) = C2(50.0 mL)

C2 = 0.2 M NaOH

Since NaOH is a strong base, it dissociates completely in water, resulting in an equal concentration of OH- ions. So, [OH-] = 0.2 M.

Next, use the ion product of water (Kw) to find the concentration of H3O+ ions. Kw = [H3O+][OH-] = 1.0 x 10^(-14) at 25°C.

[H3O+] = Kw / [OH-] = (1.0 x 10^(-14)) / (0.2) = 5.0 x 10^(-14) M

Finally, to find the pH of the solution, use the formula:

pH = -log[H3O+]

pH = -log(5.0 x 10^(-14)) ≈ 13.3

So, the resulting pH of the solution is approximately 13.3.

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n≡n946n−h389 o=o498o−h464 use bond energies to calculate the enthalpy of formation of nh3 in kj/mol.

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The given equation shows the formation of ammonia (NH3) from nitrogen and hydrogen atoms. In order to calculate the enthalpy of formation of NH3, we need to use bond energies.

The bond energy is the amount of energy required to break a chemical bond, or the amount of energy released when a bond is formed. We can use the bond energies of N≡N, H-H, and N-H bonds to calculate the enthalpy of formation of NH3.

The bond energy of N≡N is 946 kJ/mol, the bond energy of H-H is 389 kJ/mol, and the bond energy of N-H is 464 kJ/mol. The enthalpy change of the reaction can be calculated by subtracting the energy required to break the bonds in the reactants from the energy released when the bonds are formed in the product.

Using the given equation, we can see that two N≡N bonds and six H-H bonds are broken, and four N-H bonds are formed. Therefore, the enthalpy of formation of NH3 can be calculated as follows:

The negative sign indicates that the reaction is exothermic, which means that energy is released during the formation of NH3. Therefore, the enthalpy of formation of NH3 is -46 kJ/mol.

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