a) The ionization constant for water (Kw) is 5.476 x 10-14 at 50 oC. Calculate [H3O+], [OH-], pH, and
pOH for pure water at 60oC.
b) Look at the following table with temperature, Kw, and pH values for pure water.
Temp. (oC)
Kw
pH
0
0.114 x 10-14
7.47
10
0.293 x 10-14
7.27
20
0.681 x 10-14
7.08
25
1.008 x 10-14
7.00
40
2.916 x 10-14
6.77
60
9.550 x 10-14
6.51
100
51.3 x 10-14
6.14
Notice that the pH falls as the temperature increases.
i) Does this mean that pure water becomes more acidic as the temperature rises? _______
ii) The reason for my answer is in pure water…(choose the correct letter from 1 - 5)._______
1. the pH becomes less than 7 as the temperature rises.
2. there are less H3O+ ions created as the temperature increases.
3. there are more H3O+ ions created as the temperature increases.
4. there are always the same # of hydronium and hydroxide ions even if the pH changes.
5. the OH- ions are evaporated as the temperature rises.

Answers

Answer 1

A) To solve this problem, we can use the formula for the ionization constant of water:

Kw = [H3O+][OH-]

At 50 oC, Kw = 5.476 x 10-14. We can assume that [H3O+] and [OH-] are equal since we are dealing with pure water.

Therefore,

[H3O+] = [OH-] = sqrt(Kw) = sqrt(5.476 x 10-14) = 7.40 x 10-8 mol/L

pH = -log[H3O+] = -log(7.40 x 10-8) = 7.13

pOH = -log[OH-] = -log(7.40 x 10-8) = 7.13

To find the values for pure water at 60oC, we can use the new value of Kw at that temperature:

Kw = 9.550 x 10-14

[H3O+] = [OH-] = sqrt(Kw) = sqrt(9.550 x 10-14) = 3.09 x 10-7 mol/L

pH = -log[H3O+] = -log(3.09 x 10-7) = 6.51

pOH = -log[OH-] = -log(3.09 x 10-7) = 6.51

b) i) No, it does not mean that pure water becomes more acidic as the temperature rises.

ii) The correct answer is 2. As the temperature increases, the ionization of water increases and more H3O+ and OH- ions are formed. However, since the concentration of H2O is also decreasing due to the increase in temperature, the increase in ionization does not result in an increase in [H3O+] and pH actually decreases.


Related Questions

A student sets up a titration with a * 1 point buret filled with 0.5 M NaOH. In the flask below they place the phenolphthalein indicator and 6.2 mL of the unknown acid. The solution in the beaker turns pink after exactly 24.8 mL of NaOH have been added. Find the exact concentration of the unknown acid.

Answers

Answer:

2.00 M

Explanation:

In a titration, we can determine the concentration of an unknown acid by adding a known concentration of a base, such as NaOH, until the reaction is complete. At the endpoint of the reaction, the amount of base added is equal to the amount of acid present in the sample.

From the problem, we know that the NaOH solution has a concentration of 0.5 M, and that 24.8 mL of NaOH is required to completely react with the unknown acid in the flask. We can use this information to calculate the number of moles of NaOH that were added:

moles of NaOH = concentration x volume

moles of NaOH = 0.5 mol/L x 0.0248 L

moles of NaOH = 0.0124 moles

Since the reaction is a neutralization reaction between an acid and a base, the number of moles of NaOH added is equal to the number of moles of acid in the flask. Therefore, we can calculate the concentration of the acid using the volume of acid added:

moles of acid = moles of NaOH

moles of acid = 0.0124 moles

volume of acid = 6.2 mL = 0.0062 L

concentration of acid = moles of acid / volume of acid

concentration of acid = 0.0124 moles / 0.0062 L

concentration of acid = 2.00 M

Therefore, the exact concentration of the unknown acid is 2.00 M.

Consider the reaction, CH4 (g) +202 (g) → CO₂ (g) + 2H₂O (1), AH= −890 kJ.
What will be the change in enthalpy when 3 moles of methane react in excess oxygen?
O-890 kJ
○ -2.67 × 10³ kJ
O +890 kJ
O +2.67 x 10³ kJ

Answers

The change in enthalpy when 3 moles of methane react in excess oxygen is -2.67 × 10³ kJ (Option B).

What is enthalpy?

Enthalpy (H) is a thermodynamic property that describes the total heat content of a system at a constant pressure. It is a measure of the energy that is transferred as heat during a chemical reaction or physical change at constant pressure.

Enthalpy is defined mathematically as:

H = U + PV

where U is the internal energy of the system, P is the pressure, and V is the volume. Enthalpy is often measured in units of Joules (J) or kilojoules (kJ).

The given reaction is:

CH4 (g) + 2O2 (g) → CO2 (g) + 2H2O (l) ΔH = -890 kJ

This equation shows that when one mole of methane reacts with two moles of oxygen, it produces one mole of carbon dioxide and two moles of water while releasing 890 kJ of energy.

To determine the change in enthalpy when 3 moles of methane react in excess oxygen, we need to first calculate the amount of heat released when one mole of methane reacts with excess oxygen.

From the balanced chemical equation, we can see that 1 mole of CH4 releases 890 kJ of energy, so the energy released by 3 moles of CH4 would be 3 times that value:

Energy released by 3 moles of CH4 = 3 × (-890 kJ/mol) = -2670 kJ

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The change in enthalpy when 3 moles of methane react in excess oxygen is -2670 kJ.

What is Enthalpy?

Enthalpy is a thermodynamic property of a system that describes the heat content of the system at constant pressure. It is denoted by the symbol "H" and is expressed in units of joules (J) or kilojoules (kJ). Enthalpy is a state function, which means that it depends only on the initial and final states of the system, not on the path taken to reach those states.

The given reaction is: CH4 (g) + 2O2 (g) → CO2 (g) + 2H2O (l), ΔH = −890 kJ

This reaction is for one mole of methane. To find the change in enthalpy when 3 moles of methane react, we need to multiply the enthalpy change by 3:

ΔH = 3 × (-890 kJ/mol) = -2670 kJ

Therefore, the change in enthalpy when 3 moles of methane react in excess oxygen is -2670 kJ.

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Which of the following is the major organic product of the condensation of ammonia or a primary amine with the carbonyl group of an aldehyde or ketone?
Imine

Answers

The major organic product of the condensation of ammonia or a primary amine with the carbonyl group of an aldehyde or ketone is an imine.

A functional group or organic substance with a carbon-nitrogen double bond (C=N) is known as an imine. A hydrogen atom or an organic group may be joined to the nitrogen atom. (R). The carbon atom is connected to two more single bonds. Imines are present in numerous processes and are frequently found in manufactured and naturally occurring chemicals.

The five core atoms for ketimines and aldimines, C2C=NX and C(H)C=NX, respectively, are coplanar. The sp2-hybridization of the mutually double-bonded nitrogen and carbon atoms yields planarity. For nonconjugated imines, the C=N distance is 1.29-1.31, whereas for conjugated imines, it is 1.35. The C-N distances in amines and nitriles, on the other hand, are 1.47 and 1.16, respectively. Slow rotation occurs around the C=N bond. E- and Z-isomers were detected using NMR spectroscopy of aldimines have been detected. Owing to steric effects, the E isomer is favored.

An imine is formed when a primary amine reacts with a carbonyl group (C=O) of an aldehyde or ketone to form a new C-N bond. This reaction is known as a condensation reaction, as it involves the loss of a small molecule (e.g. water) to form the product.

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The correct questions is :

What  is the major organic product of the condensation of ammonia or a primary amine with the carbonyl group of an aldehyde or ketone?

The enthalpy of vaporization for dimethyl ether is 27.5 kJ/mol. Dimethyl ether has a vapor pressure of 760 torr at 34.6 oC. Using the Clausius-Clapeyron equation, what is the vapor pressure for methanol at 4.2 oC? Give your answer in torr, to the first decimal point.

Answers

The vapor pressure of methanol at 4.2 oC is approximately 1.6 torr.

What is the vapor pressure of methanol?

The Clausius-Clapeyron equation relates the vapor pressure of a substance at two different temperatures and its enthalpy of vaporization. The equation is:

ln(P2/P1) = (-ΔHvap/R)(1/T2 - 1/T1)

where;

P1 and T1 are the vapor pressure and temperature at the first state, P2 and T2 are the vapor pressure and temperature at the second state, ΔHvap is the enthalpy of vaporization, R is the gas constant, and ln is the natural logarithm.

We are given the enthalpy of vaporization for dimethyl ether, which is 27.5 kJ/mol. We are also given the vapor pressure of dimethyl ether at 34.6 ⁰C, which is 760 torr.

We want to find the vapor pressure of methanol at 4.2 ⁰C.

Let's choose the vapor pressure of dimethyl ether at 34.6 ⁰C as the first state, and the vapor pressure of methanol at 4.2 ⁰C as the second state. We can convert the temperatures to kelvin by adding 273.15:

T1 = 34.6 + 273.15 = 307.75 K

T2 = 4.2 + 273.15 = 277.35 K

We can plug in the values into the Clausius-Clapeyron equation:

ln(P2/760) = (-27.5×10^3 J/mol)/(8.314 J/(mol·K)) × (1/277.35 K - 1/307.75 K)

Simplifying:

ln(P2/760) = -5.721

Taking the exponential of both sides:

P2/760 = e^-5.721

Multiplying both sides by 760:

P2 = 1.65 torr (to the nearest tenth)

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The acid dissociation Ka of benzoic acid (CHCO2H) is 6.3 x 10 Calculate the pH of a 1.3 × 10- M aqueous solution of benzoic acid. Round your answer to 2 decimal places.

Answers

The pH of the 1.3 x 10-4 M aqueous solution of benzoic acid is 4.20, rounded to two decimal places.

The pH of a 1.3 x 10- M aqueous solution of benzoic acid can be calculated using the acid dissociation constant (Ka) of the benzoic acid. The Ka of benzoic acid is 6.3 x 10-5.
First, we need to calculate the concentration of the benzoic acid (CHCO2H) in the solution. This can be done by multiplying the initial molarity of 1.3 x 10-4 with the volume of the solution. The concentration of benzoic acid in the solution is therefore 1.3 x 10-4 M.
Next, we need to use the Henderson-Hasselbalch equation to calculate the pH of the solution. The Henderson-Hasselbalch equation is: pH = pKa + log([A-]/[HA]).
In this equation, pKa is the acid dissociation constant of the benzoic acid, [A-] is the concentration of the conjugate base (CHCO2-) in the solution and [HA] is the concentration of the benzoic acid in the solution.
Substituting the values in the Henderson-Hasselbalch equation, we get:
pH = -log(6.3 x 10-5) + log(1.3 x 10-4/1.3 x 10-4)
pH = -log(6.3 x 10-5)
pH = 4.20
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which of the following elements is the most difficult to ionize? select the correct answer below: fr h he xe

Answers

The He element is the one that is hardest to ionize.

The correct answer is He.

Why is it called elements?

An object is categorised as an element if it cannot be reduced to a simpler form. It is possible to recognise them by their particular atomic number. The elements are organised into groups in the periodic table based on their atomic numbers, and those having related characteristics are underlined.

What components comprise the elements?

An element is any substance made entirely of a certain type of atom, which are the building blocks of all matter. We know that each element is composed of protons, neutrons, and electrons. Some of the tiniest components in all of nature are these.

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When a mineral breaks along a weekly bonded plane it is called

Answers

Answer: Cleavage


Explanation:

When a mineral breaks along a weekly bonded plane it is called cleavage

For the reaction, 2NO(g) + 2H2 (g) = N2 (g) 2H2O(g), it is determined that; at equilibrium at a particular temperature, the concentrations are as follows: [NO]-0.0081 M, [Hz]-4.1x 10-5 M [N2]= 5.3 x 10-2 M, and [H2O]-2.9 x I0-3M. Calculate the value of Keq and KP for this system at 298 K_

Answers

The equilibrium constant Keq is 640.86 and the equilibrium constant KP is 0.0198 for the given reaction at 298 K.

How do you calculate the values of Keq and KP for this system?

The balanced chemical equation for the given chemical reaction is:

2NO(g) + 2H₂(g) ⇌ N₂(g) + 2H₂O(g)

where ⇌ indicates a state of equilibrium.

The equilibrium concentrations are:

[NO] = 0.0081 M

[H₂] = 4.1 × 10⁻⁵ M

[N₂] = 5.3 × 10⁻² M

[H₂O] = 2.9 × 10⁻³ M

The equilibrium constant, Keq, is given by:

Keq = [N₂][H₂O]² / [NO]²[H₂]²

Substituting the given values:

Keq = (5.3 × 10⁻²) (2.9 × 10⁻³)² / (0.0081)² (4.1 × 10⁻⁵)²

Keq = 640.86

The equilibrium constant in terms of partial pressures, KP, is related to Keq as follows:

KP = Keq(RT)^Δn

where R is the gas constant, T is the temperature in Kelvin, and Δn is the difference between the total number of moles of gaseous products and the total number of moles of gaseous reactants.

For the given reaction:

Δn = (1 + 2) − (2 + 2) = −1

Substituting the values:

KP = 640.86 (0.08206)(298)⁻¹

KP = 0.0198

Therefore, the equilibrium constant Keq is 640.86 and the equilibrium constant KP is 0.0198 for the given reaction at 298 K.

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based on solubility rules, could you use fe(no3)3 rather than agno3 to determine the percent chloride in the unkown

Answers

No. According to solubility rule, we cannot use the Fe(NO3)3 rather than AgNO3 via analysis of precipitate of AgCl because no precipitate of cl- ion formed in Fe(NO3)3 .

A solubility chart having solubility rules is defined as a chart describing for different combinations of cations and anions whether the ionic compounds formed dissolve in or precipitate from a solution. This chart shows the solubility of various common ionic compounds in water, at a pressure of 1 atm. and under room temperature.

The following reactions are involved to determine Cl- concentration,

Case 1:  Fe(NO3)3 (aq.) + Cl-(aq.)   ----> FeCl3(aq.) + NO3-(aq.).

In this reaction involving aqueous solution of Fe(NO3)3 no precipitate of Cl- ion compound is formed .so this we can not use Fe(NO3)3 to determine %Cl- ion in solution.

Case 2 :

AgNO3(aq.) + Cl- (aq.)  ---> AgCl(precipitate) + NO3-.

This reaction involving aqueous solution of AgNO3 can be use to determine %Cl- ion concentration in solution via analysis of precipitate of AgCl .

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Calculate the mass of benzene that should be dissolved in 425g of water at 35°C to produce a
solution with a vapor pressure of 36.1 mmHg.
(At 35°C, P0H20 = 42.2mmHg)

Answers

The mass of benzene that should be dissolved in 425g of water at 35°C to produce a solution with a vapor pressure of 36.1 mmHg is 661.7 g.

What is the mass of dissolved benzene?

This problem involves Raoult's law, which states that the vapor pressure of a solution is proportional to the mole fraction of the solvent in the solution.

Mathematically, Raoult's law is expressed as:

P = X_solvent * P0_solvent

where;

P is the vapor pressure of the solutionX_solvent is the mole fraction of the solvent, and P0_solvent is the vapor pressure of the pure solvent.

To solve this problem, we need to first calculate the mole fraction of benzene that should be dissolved in water to produce a solution with a vapor pressure of 36.1 mmHg at 35°C.

We can use the following equation to calculate the mole fraction of benzene:

X_benzene = P / P0_benzene

X_benzene = 36.1 mmHg / 50.7 mmHg = 0.711

This means that for the given conditions, the mole fraction of benzene in the solution should be 0.711.

Next, we can use the mole fraction to calculate the mass of benzene that should be dissolved in 425g of water. We can assume that the total mass of the solution is 425g + mass of benzene.

Let's call the mass of benzene "m". The mole fraction of benzene is given by:

X_benzene = moles of benzene / (moles of benzene + moles of water)

Since we know the mass of water (425g), we can calculate the moles of water:

moles of water = mass of water / molar mass of water

where;

the molar mass of water is 18 g/mol. Plugging in the values, we get:

moles of water = 425g / 18 g/mol = 23.61 moles

We can rearrange the equation for mole fraction to solve for the moles of benzene:

moles of benzene = X_benzene * (moles of benzene + moles of water)

moles of benzene = 0.711 * (moles of benzene + 23.61)

Solving for moles of benzene, we get:

moles of benzene = 8.48

Now we can use the mass of benzene and moles of benzene to calculate the molar mass of benzene:

molar mass of benzene = mass of benzene / moles of benzene

Solving for mass of benzene, we get:

mass of benzene = molar mass of benzene * moles of benzene

The molar mass of benzene is 78.11 g/mol. Plugging in the values, we get:

mass of benzene = 78.11 g/mol * 8.48 mol = 661.7 g

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Look at the picture below

Answers

The claim was correct . All elements  have same number of particles in one mole and have different number of particles  in a mole based on atomic number .

What is mole ?

In the International System of Units, the mole (symbol mol) is the unit of substance amount (SI). The amount of substance is a measurement of how many elementary entities of a given substance are present in an object or sample. An elementary entity can be an atom, a molecule, an ion, an ion pair, or a subatomic particle such as an electron, depending on the substance. For example, despite having different volumes and masses, 10 moles of water (a chemical compound) and 10 moles of mercury (a chemical element) contain equal amounts of substance, and the mercury contains exactly one atom for each molecule of water.

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What is the pH of a solution that has a hydronium ion concentration 100 times greater than a solution with a pH of 6?

Answers

4 is the answer that’s the answer

What does the Law have to do with burning *
gasoline?

Answers

Airborne pollutants are generated by the vapours released when gasoline evaporated and the materials created when gasoline burns (carbon monoxide, nitrogen dioxide, particulates, and unburned hydrocarbons).

Can you burn gasoline?

Air must be supplied to gasoline in order to burn. To create an ignitable solution, only a small amount of gasoline is needed. If the gas-to-air combination includes such little only 1.4% gasoline by content, it might be burnt with explosive intensity.

What is gasoline that burns cleanly?

For cleaner burning gasoline, use CBG. In accordance with air quality rules, this moniker refers to particular gasoline formulas that must be supplied in specific regions of Arizona.

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Conclusions
1. What conclusions can you draw about how temperature and salinity affect the flow of water Write an
evidence-based claim
Type your answer here:
I
2. Draw a diagram (develop a model) that shows what happens when warm water mixes with cold water in the
ocean. Use your model to explain how this causes ocean currents.
Type your answer here:

Answers

1. Temperature and salinity affect the flow of water in the ocean by creating density differences that drive ocean currents.

2. [image of warm and cold water mixing and creating a convection cell is mentioned below]

When warm water mixes with cold water in the ocean, a convection cell forms. Warm water rises and cold water sinks, which drives ocean currents. This process is influenced by other factors such as wind, Earth's rotation, and the shape of ocean basins.

What is density?

Density refers to the amount of mass per unit volume of water. At standard conditions (temperature of 4 degrees Celsius and pressure of 1 atmosphere), the density of pure water is approximately 1 gram per cubic centimeter (g/cm³). However, the density of water can vary depending on its temperature and salinity.

What is convection cell?

A convection cell is a circular pattern of fluid movement that arises when warm fluid rises and cold fluid sinks in a circular motion, creating a loop or cell. In the context of oceanography, convection cells can be formed when warm water rises and cold water sinks, either due to differences in temperature or salinity.

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Identify the expected color of each element in a model of a molecule. Carbon Choose... Hydrogen Choose... Nitrogen Choose... Oxygen Choose... Identify the expected color of each element in a model of a molecule. Carbor Choose... White Hydrog Gray Red Nitroge Blue Black Oxygen choose...

Answers

Carbon - Black

Hydrogen - white

Nitrogen - blue

Oxygen - grey

What is a molecular model?

A molecular model is a representation of the three-dimensional structure of a molecule. It is used to visualize the arrangement of atoms within the molecule and to understand its chemical and physical properties.

There are various types of molecular models, ranging from physical models made of plastic or metal, to computer-generated models used in molecular graphics software. Physical models can be used to represent molecules at a larger scale, while computer-generated models can be used to show detailed structures and interactions between individual atoms.

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a 0.100 mole sample of ethane, c2h6, contains which of these? hint: how many atoms are present in one c2h6 molecule?

Answers

0.100 mole sample of ethane contains approximately 1.204 x [tex]10^{24}[/tex] carbon atoms and 3.612 x [tex]10^{24}[/tex] hydrogen atoms.

What are the atoms?

In one molecule of ethane (C2H6), there are 2 carbon atoms and 6 hydrogen atoms.

To determine how many atoms are present in a 0.100 mole sample of ethane, we can use Avogadro's number, which relates the number of particles (in this case, molecules) to the amount of substance in moles. Avogadro's number is approximately 6.02 x [tex]10^{23}[/tex] particles per mole.

So, a 0.100 mole sample of ethane would contain:

0.100 x 6.02 x [tex]10^{23}[/tex]molecules of ethane2 x 0.100 x 6.02 x [tex]10^{23}[/tex] carbon atoms (since each ethane molecule contains 2 carbon atoms)6 x 0.100 x 6.02 x [tex]10^{23}[/tex] hydrogen atoms (since each ethane molecule contains 6 hydrogen atoms)

Simplifying this expression, we get:

6.02 x [tex]10^{22}[/tex] molecules of ethane1.204 x [tex]10^{24}[/tex]carbon atoms (2 x 6.02 x [tex]10^{22}[/tex])3.612 x [tex]10^{24}[/tex] hydrogen atoms (6 x 6.02 x [tex]10^{22}[/tex])

Therefore, a 0.100 mole sample of ethane contains approximately 1.204 x [tex]10^{24}[/tex] carbon atoms and 3.612 x [tex]10^{24}[/tex] hydrogen atoms.

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in 5 or more sentences why being able to reproduce scientific results is an important component of scientific research

Answers

Answer:

1. Reproducibility helps confirm the accuracy of research results.

2. It allows for further investigation of the same topic in different contexts.

3. Reproducibility provides assurance that the methods used were reliable.

4. It allows other researchers to build on the original research and expand upon it.

5. It allows for verification of the results and eliminates the possibility of data manipulation.

6. It helps make sure that the results are consistent and valid.

7. It enables more comprehensive understanding of the research topic.

8. It allows for the development of new theories and hypotheses based on the findings.

You wish to extract solute X from water. Solute X is twice as soluble in diethyl ether as it is in methylene chloride
Which one do you choose?

Answers

Diethyl ether is the better solvent to extract solute X from water, and it is twice as soluble in diethyl ether as it is in methylene chloride.

In this given question, we have to extract solute X from water. It is given that solute X is twice as soluble in diethyl ether as it is in methylene chloride. Solute X is twice as soluble in diethyl ether as it is in methylene chloride. Therefore, we can say that diethyl ether is a better solvent as compared to methylene chloride to extract solute X from water. Solute X will dissolve more readily in diethyl ether than in methylene chloride.It means if we use diethyl ether to extract solute X from water, we will get a more pure solution of solute X as compared to the solution that we will get if we use methylene chloride as a solvent. Therefore, we should choose diethyl ether to extract solute X from water.

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Using C2H4 + 3 O2 -> 2 CO2 + 2 H2O. If 20 moles of fuel are combusted in the above equation, how many moles of CO2 are produced?

Answers

According to the balanced equation:

1 mole of C2H4 produces 2 moles of CO2

Therefore, to determine the number of moles of CO2 produced when 20 moles of C2H4 are combusted:

20 moles C2H4 x (2 moles CO2/1 mole C2H4) = 40 moles CO2

Therefore, 40 moles of CO2 are produced.

Q6. Draw a Lewis dot structure for sulfuric acid, H2SO4, in such a way that the octet rule is obeyed for all atoms except H. What is the formal charge on the sulfur atom?

Answers

The Lewis structure of the H2SO4 has been shown in the image attached.

How does the atoms in H2SO4 obey the octet rule?

In H2SO4, there are a total of 32 valence electrons available for bonding. The central atom in H2SO4 is sulfur (S), which has 6 valence electrons. To achieve an octet, sulfur needs to form six covalent bonds.

The two hydrogen atoms (H) in H2SO4 each contribute one valence electron to form a single covalent bond with sulfur. This leaves sulfur with 4 valence electrons.

The four oxygen atoms (O) in H2SO4 each contribute 6 valence electrons to form a total of 24 valence electrons in four covalent bonds with sulfur. This brings the total number of valence electrons around sulfur to 28.

To complete the octet, each oxygen atom also has two lone pairs of electrons, bringing the total number of valence electrons around sulfur to 32.

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Q10. Hydrocarbon molecules can react with halogens like Cl2 or Br2 (represented generically by X2) where C-H bonds are replaced by C-X bonds, forming HX molecules in the process. Balance the following chemical reaction and compute the estimated heat of reaction using the values above.
C3H8(g) + X2(g) → C3H2X6(g) + HX (g)
You are given the following average bond energies:
H-H 436 kJ/mol
H-X 431 kJ/mol
H-C 414 kJ/mol
C-X 339 kJ/mol
X-X 243 kJ/mol

Answers

Answer: To balance the given chemical equation, we can start by counting the number of atoms on both sides of the equation. We have 3 carbon atoms and 8 hydrogen atoms on the left side, and 3 carbon atoms, 6 X atoms, and 1 hydrogen atom on the right side.

C3H8(g) + X2(g) → C3H2X6(g) + HX(g)

To balance the equation, we can add a coefficient of 3 in front of HX on the product side:

C3H8(g) + X2(g) → C3H2X6(g) + 3HX(g)

Now, we have the same number of H atoms on both sides (8 H atoms on each side), and the equation is balanced.

To estimate the heat of reaction, we can use the bond energy values to calculate the energy required to break the bonds in the reactants and the energy released by forming the bonds in the products. We can then subtract the energy required to break the bonds from the energy released by forming the bonds to obtain an estimate of the heat of reaction.

Breaking bonds in the reactants:

3 C-H bonds × 414 kJ/mol = 1242 kJ/mol

1 X-X bond × 243 kJ/mol = 243 kJ/mol

Forming bonds in the products:

6 C-X bonds × 339 kJ/mol = 2034 kJ/mol

1 C-H bond × 414 kJ/mol = 414 kJ/mol

3 H-X bonds × 431 kJ/mol = 1293 kJ/mol

Estimated heat of reaction:

Energy released - energy required

(2034 kJ/mol + 414 kJ/mol + 1293 kJ/mol) - (1242 kJ/mol + 243 kJ/mol) = 2756 kJ/mol

Therefore, the estimated heat of reaction for the given chemical equation is 2756 kJ/mol. Note that this is only an estimate and actual experimental values may differ due to factors such as reaction conditions and the presence of catalysts.

Can someone help me with this chemistry question? Will give brainliest for a solution + explanation.

Answers

The percentage yield for the in which 1.94 g of Sb₂S₃ is obtained from 1.72 g of antimony and slight excess sulphur is 80% (3rd option)

How do i determine the percentage yield?

First, we shall obtain the theoretical yield of Sb₂S₃. Details below

2Sb(s) + 3S(s) → Sb₂S₃(s)

Molar mass of Sb = 121.76 g/molMass of Sb from the balanced equation = 2 × 121.76 = 243.52 gMolar mass of Sb₂S₃ = 339.7 g/mol Mass of Sb₂S₃ from the balanced equation = 1 × 339.7 = 339.7 g

From the balanced equation above,

243.52 g of Sb reacted to produce 339.7 g of Sb₂S₃

Therefore,

1.72 g of Sb will react to produce = (1.72 × 339.7) / 243.52 = 2.40 g of Sb₂S₃

Finally, we shall determine the percentage yield for the reaction. Details below:

Actual yield of Sb₂S₃ = 1.94 gTheoretical yield of Sb₂S₃ = 2.40 gPercentage yield =?

Percentage yield = (Actual /Theoretical) × 100

Percentage yield = (1.94 / 2.40) × 100

Percentage yield = 80%

Thus, the percentage yield is 80% (3rd option)

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For the following reaction, which of the reactants would be the acid?

HNO2 ( aq ) + HS - ( aq ) → NO2 - ( aq ) + H2S ( aq )



Select one:

a.
HS -


b.
H2O


c.
NO2 -


d.
HNO2

(Chem 2 Quiz 3.1)

Answers

The acid in the reaction would donate a proton and that would be HNO2.

How do you know an acid in a reaction?

An acid in a chemical reaction can be identified by the presence of hydrogen ions (H+): Acids are compounds that produce hydrogen ions when dissolved in water. In a chemical reaction, an acid may donate a hydrogen ion to another compound or accept a pair of electrons from a base.

When we look at the reaction, we can see that the specie that has given out the replaceable hydrogen ion is HNO2 thus it is the acid in the reaction.

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How do the number of collisions affect the size of the balloon?

Answers

Answer:

As the number of gas particles increases, the frequency of collisions with the walls of the container must increase. This, in turn, leads to an increase in the pressure of the gas. Flexible containers, such as a balloon, will expand until the pressure of the gas inside the balloon once again balances the pressure of the gas outside.

Explanation:

An irregularly-shaped piece of aluminum (Al) has a mass of 56.4 grams. What is the volume in cm³ of this piece of aluminum if its density is 2.70 g/cm³?

Answers

The volume of the irregularly-shaped piece of aluminum is 20.89 cm³.

Calculation of volume?

To calculate the volume of the irregularly-shaped piece of aluminum, we first need to calculate its density.

This is done by dividing the mass of the aluminum (56.4 grams) by its density (2.70 g/cm³).

That is

Volume = 56.4 grams/2.70 g/cm³

Volume = 20.89 cm³

This gives us a result of 20.89 cm³.

Density is a measure of mass per unit volume. It is typically expressed in units of grams per cubic centimeter (g/cm3). It is an intensive property, meaning that it is a physical property of a material that does not depend on the amount of the material present.

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When considering the relationship between standard free energy change and the equilibrium constant, if K>1, _______. Select the correct answer below: products are more abundant at equilibrium ?G? is positive ?G? is zero reactants are more abundant at equilibrium

Answers

If K>1, products are more plentiful at equilibrium when examining the link between the standard free energy change and the equilibrium constant.

A key idea in chemical equilibrium is the equilibrium constant (K), which reflects the correlation between the reactant and product concentrations at equilibrium. It is described as the ratio of the concentrations of the reactants and products, each raised to the power of their respective stoichiometric coefficients. As well as the equilibrium concentrations of reactants and products, K gives information on the size and direction of a chemical reaction. A higher value of K denotes a greater preference for the product in the reaction, whereas a lower value denotes a greater preference for the reactant. Temperature has an impact on K, which can be used to forecast how shifting conditions would alter an equilibrium chemical system.

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add curved arrows to the reactant side to illustrate the movement of electrons in the e2 reaction shown.

Answers

The curved arrows are as follows: P(X = x) = (ⁿₓ)pˣ(1-p)ⁿ⁻ˣ

The reactants and products of E2 reaction are given. The curved arrow mechanism needed to be depicted. The electron movement happens in such a way so that the incoming base extracts a proton and the removal of leaving group takes place.

E2 reaction: It stands for elimination reaction following second order kinetics. In E2 reaction, the base abstracts the

hydrogen and removal of the leaving group simultaneously in the same step. A general mechanism is shown below:

(n-x)

Step: 1

The base is the hydroxyl ion and the leaving group is bromine as shown below:

P(X = x) = (ⁿₓ)pˣ(1-p)ⁿ⁻ˣ; here x=0,1,2,...,n for 0≤p≤1

The hydroxyl ion is the base since it has the ability to donate a pair of electrons. The bromine is the leaving group since it can accommodate the negative charge. Generally, halogens are good leaving groups because they can accommodate the negative charge due to their high electronegativity.

Step: 2

The curved arrows are as follows:

P(X = x) = (ⁿₓ)pˣ(1-p)ⁿ⁻ˣ

The movement of electrons is in such a way as shown above because the base present that is hydroxyl ion can accept proton. Therefore, it extracts a proton. In an E2 reaction, the leaving group is removed at the same time. Therefore, the bromide ion is removed as it can bear the negative charge.

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Complete question is attached below

Given the following substrate and reaction conditions, what type of sustitution/elimination mechanisms is most favorable? SN1 OA OO ECDB OB Br CH3 SN2 B KOt-Bu t-BUOH E1 C E2 all of these

Answers

The type of substitution/elimination mechanism that is most favorable depends on the specific substrate and reaction conditions.

SN1 (Substitution Nucleophilic Unimolecular) mechanism is favored in the following conditions:

Tertiary or secondary substrate: Since the SN1 reaction involves a carbocation intermediate, a more stable carbocation will form more easily, which is possible with a tertiary or secondary substrate.

Polar protic solvent: A polar protic solvent stabilizes the carbocation intermediate and solvates the nucleophile.

Weak nucleophile: Since the carbocation intermediate is highly reactive, a weak nucleophile is preferred to avoid competing reactions that could produce alternative products.

SN2 (Substitution Nucleophilic Bimolecular) mechanism is favored in the following conditions:

Primary or methyl substrate: The SN2 reaction involves a one-step mechanism, where the nucleophile attacks the substrate as the leaving group departs. This mechanism is best suited to a primary or methyl substrate, where steric hindrance is minimal.

Polar aprotic solvent: A polar aprotic solvent is best suited to an SN2 reaction as it does not solvate the nucleophile as strongly, allowing it to react more easily.

Strong nucleophile: A strong nucleophile is preferred in an SN2 reaction since the nucleophile will be more effective in attacking the substrate.

E1 (Elimination Unimolecular) mechanism is favored in the following conditions:

Tertiary or secondary substrate: Since the E1 reaction involves a carbocation intermediate, a more stable carbocation will form more easily, which is possible with a tertiary or secondary substrate.

Polar protic solvent: A polar protic solvent stabilizes the carbocation intermediate.

Weak base: A weak base is preferred in an E1 reaction, as a strong base would favor an E2 reaction.

E2 (Elimination Bimolecular) mechanism is favored in the following conditions:

Primary or secondary substrate: E2 reaction requires that the substrate be in the anti-coplanar conformation, which is easier to achieve with a primary or secondary substrate.

Polar aprotic solvent: A polar aprotic solvent is preferred in an E2 reaction as it does not solvate the nucleophile as strongly, allowing it to react more easily.

Strong base: A strong base is preferred in an E2 reaction, as a weak base would favor an E1 reaction.

Based on the given substrate and reaction conditions, it is not possible to determine the most favorable substitution/elimination mechanism. Further information is needed about the substrate and reaction conditions to make a determination.

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Determine whether each anion is basic or neutral. For those ions that are basic, write an equation that shows how the anion acts as a base. a. C7H5O2- b. I- c. NO3- d. F-

Answers

(a). C7H5O2- is basic. The anion can act as a base by accepting a proton (H+) from water, forming benzoic acid and hydroxide ion:

C7H5O2- + H2O ⇌ C7H6O2 (benzoic acid) + OH-

(b). I- is neutral. The anion does not have the ability to accept or donate protons.

(c). NO3- is neutral. The anion does not have the ability to accept or donate protons.

(d). F- is basic. The anion can act as a base by accepting a proton (H+) from water, forming hydrofluoric acid and hydroxide ion:

F- + H2O ⇌ HF (hydrofluoric acid) + OH-

What is benzoic acid ?

Benzoic acid is a white crystalline solid with the chemical formula C7H6O2. It is a carboxylic acid, which means it has a carboxyl group (-COOH) as its functional group. Benzoic acid is naturally occurring in many plants and fruits, and is used as a food preservative due to its antimicrobial properties. It is also used in the production of various chemicals and drugs, including benzoyl chloride, benzyl alcohol, and phenylbutazone.

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Draw a Lewis structure that obeys the octet rule for each of the following molecules and ions. In each case the first atom listed is the central atom.
a. POCl3, SO42−, XeO4, PO43−, ClO4−
b. NF3, SO32−, PO33−, ClO3−
c. ClO2−, SCl2, PCl2−

Answers

To draw a Lewis structure that obeys the octet rule for each of the molecules and ions listed, simply follow the steps outlined above and make sure that each atom has a formal charge of zero or close to zero.

For each of the molecules and ions listed, you can draw a Lewis structure that obeys the octet rule by following these steps:

1. Identify the central atom: The first atom listed in each molecule or ion is the central atom.

2. Count the number of valence electrons: Each atom has a certain number of valence electrons based on its position in the periodic table.

3. Form single bonds: Make single bonds between the central atom and each of the other atoms to use up the available valence electrons.

4. Add lone pairs: If the central atom still has electrons remaining, add lone pairs to satisfy the octet rule.

5. Check the formal charges: Make sure all atoms have formal charges of zero or close to zero.

Let's look at each molecule and ion individually:

a. POCl3, SO42−, XeO4, PO43−, ClO4−:

POCl3: The central atom is phosphorus (P) and it has 5 valence electrons. We form single bonds between the P atom and each of the other atoms, giving P a total of 8 electrons. The formal charge of each atom is zero.

SO42−: The central atom is sulfur (S) and it has 6 valence electrons. We form single bonds between the S atom and each of the other atoms, giving S a total of 8 electrons. The formal charge of each atom is zero.

XeO4: The central atom is xenon (Xe) and it has 8 valence electrons. We form single bonds between the Xe atom and each of the other atoms, giving Xe a total of 8 electrons. The formal charge of each atom is zero.

PO43−: The central atom is phosphorus (P) and it has 5 valence electrons. We form single bonds between the P atom and each of the other atoms, giving P a total of 8 electrons. The formal charge of each atom is zero.

ClO4−: The central atom is chlorine (Cl) and it has 7 valence electrons. We form single bonds between the Cl atom and each of the other atoms, giving Cl a total of 8 electrons. The formal charge of each atom is zero.

b. NF3, SO32−, PO33−, ClO3−:

NF3: The central atom is nitrogen (N) and it has 5 valence electrons. We form single bonds between the N atom and each of the other atoms, giving N a total of 8 electrons. The formal charge of each atom is zero.

SO32−: The central atom is sulfur (S) and it has 6 valence electrons. We form single bonds between the S atom and each of the other atoms, giving S a total of 8 electrons. The formal charge of each atom is zero.

PO33−: The central atom is phosphorus (P) and it has 5 valence electrons. We form single bonds between the P atom and each of the other atoms, giving P a total of 8 electrons. The formal charge of each atom is zero.

ClO3−: The central atom is chlorine (Cl) and it has 7 valence electrons. We form single bonds between the Cl atom and each of the other atoms, giving Cl a total of 8 electrons. The formal charge of each atom is zero.

c. ClO2−, SCl2, PCl2−:

ClO2−: The central atom is chlorine (Cl) and it has 7 valence electrons. We form single bonds between the Cl atom and each of the other atoms, giving Cl a total of 8 electrons. The formal charge of each atom is zero.

SCl2: The central atom is sulfur (S) and it has 6 valence electrons. We form single bonds between the S atom and each of the other atoms, giving S a total of 8 electrons. The formal charge of each atom is zero.

PCl2−: The central atom is phosphorus (P) and it has 5 valence electrons. We form single bonds between the P atom and each of the other atoms, giving P a total of 8 electrons. The formal charge of each atom is zero.

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