consider the following reaction: a2 b2 → 2ab δh = –377 kj the bond energy of ab=522 kj/mol, the bond energy of b2 = 405 kj/mol. what is the bond energy of a2?

Answers

Answer 1

The bond energy of B2 is approximately -1421 kJ/mol.

How to find bond energy?

To determine the bond energy of A2 in the reaction A2 + B2 → 2AB, we can use the concept of bond energy and the given information.

The enthalpy change (∆H) of the reaction is given as -377 kJ, which represents the energy released during the formation of two AB molecules.

We know that the bond energy represents the energy required to break one mole of a particular bond in a compound. In this reaction, two AB molecules are formed, so the energy released (∆H) must be equal to twice the bond energy of AB.

Since the bond energy of AB is given as 522 kJ/mol, twice that value will be 2 * 522 kJ/mol = 1044 kJ/mol.

Now, to determine the bond energy of B2, we subtract the energy released from the bond energy of AB:

Bond energy of B2 = ∆H - 2 * bond energy of AB

                [tex]= -377 kJ - 2 * 522 kJ/mol[/tex]

               [tex]= -377 kJ - 1044 kJ/mol[/tex]

                [tex]= -1421 kJ/mol[/tex]

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Related Questions

a compound has a chemical composition of 47% carbon, 6% hydrogen, and 47% oxygen. what is the empirical formula? luoa

Answers

Main Answer:The empirical formula is CH₂O.

Supporting Question and Answer:

How can the empirical formula of a compound be determined based on its chemical composition?

The empirical formula of a compound can be determined by finding the simplest whole-number ratio of the elements present in the compound. To calculate the empirical formula, the percentage composition of each element is converted to grams, then the grams are converted to moles. Finally, the moles of each element are divided by the smallest number of moles to obtain the simplest whole-number ratio.

Body of the Solution: To determine the empirical formula of a compound based on its chemical composition, we need to find the simplest whole-number ratio of the elements present.

Given:

Carbon: 47%

Hydrogen: 6%

Oxygen: 47%

To simplify the percentages, we can assume we have 100 grams of the compound. This means we have:

Carbon: 47 grams

Hydrogen: 6 grams

Oxygen: 47 grams

Next, we need to find the moles of each element. To do this, we divide the mass of each element by its molar mass.

The molar mass of carbon (C) is approximately 12.01 g/mol. The molar mass of hydrogen (H) is approximately 1.01 g/mol. The molar mass of oxygen (O) is approximately 16.00 g/mol.

Now, let's calculate the moles of each element:

Moles of carbon = 47 g C / 12.01 g/mol ≈ 3.916 mol C

Moles of hydrogen = 6 g H / 1.01 g/mol ≈ 5.941 mol H

Moles of oxygen = 47 g O / 16.00 g/mol ≈ 2.938 mol O

To find the simplest whole-number ratio of these moles, we divide each value by the smallest number of moles (in this case, 2.938).

Moles of carbon: 3.916 mol C / 2.938 mol ≈ 1.333 ≈ 4/3 Moles of hydrogen: 5.941 mol H / 2.938 mol ≈ 2.023 ≈ 2

Moles of oxygen: 2.938 mol O / 2.938 mol = 1

Since we need to express the empirical formula with whole numbers, we round the mole ratios to the nearest whole number.

Therefore, the empirical formula of the compound is CH₂O.

Final Answer:Hence, the empirical formula of the compound is CH₂O.

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The empirical formula is CH₂O.

How can the empirical formula of a compound be determined based on its chemical composition?

The empirical formula of a compound can be determined by finding the simplest whole-number ratio of the elements present in the compound. To calculate the empirical formula, the percentage composition of each element is converted to grams, then the grams are converted to moles. Finally, the moles of each element are divided by the smallest number of moles to obtain the simplest whole-number ratio.

To determine the empirical formula of a compound based on its chemical composition, we need to find the simplest whole-number ratio of the elements present.

Given:

Carbon: 47%

Hydrogen: 6%

Oxygen: 47%

To simplify the percentages, we can assume we have 100 grams of the compound. This means we have:

Carbon: 47 grams

Hydrogen: 6 grams

Oxygen: 47 grams

Next, we need to find the moles of each element. To do this, we divide the mass of each element by its molar mass.

The molar mass of carbon (C) is approximately 12.01 g/mol. The molar mass of hydrogen (H) is approximately 1.01 g/mol. The molar mass of oxygen (O) is approximately 16.00 g/mol.

Now, let's calculate the moles of each element:

Moles of carbon = 47 g C / 12.01 g/mol ≈ 3.916 mol C

Moles of hydrogen = 6 g H / 1.01 g/mol ≈ 5.941 mol H

Moles of oxygen = 47 g O / 16.00 g/mol ≈ 2.938 mol O

To find the simplest whole-number ratio of these moles, we divide each value by the smallest number of moles (in this case, 2.938).

Moles of carbon: 3.916 mol C / 2.938 mol ≈ 1.333 ≈ 4/3 Moles of hydrogen: 5.941 mol H / 2.938 mol ≈ 2.023 ≈ 2

Moles of oxygen: 2.938 mol O / 2.938 mol = 1

Since we need to express the empirical formula with whole numbers, we round the mole ratios to the nearest whole number.

Therefore, the empirical formula of the compound is CH₂O.

Hence, the empirical formula of the compound is CH₂O.

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A protein binds to a ligand with a Kd of 15 x 10-5 M. At what concentration does equal 0.75? O 0.36 nM O 360 uM O 0.45 mm O 0.27 nM . 2.QuM

Answers

The concentration at which 0.75 is equal to the Kd is 360 μM.

What is the concentration at which 0.75 equals the Kd?

When a protein binds to a ligand, the strength of the interaction can be quantified by the dissociation constant (Kd), which represents the concentration of the ligand at which half of the binding sites on the protein are occupied.

In this case, the Kd is given as 15 x 10^(-5) M.

To determine the concentration at which 0.75 is equal to the Kd, we can perform a simple calculation. Since the Kd represents the concentration at which half of the binding sites are occupied, the concentration at which 0.75 is equal to the Kd would be at three-quarters of the Kd value.

So, if we multiply the Kd (15 x 10^(-5) M) by 0.75, we get:

(15 x 10^(-5) M) * 0.75 = 11.25 x 10^(-5) M

Converting this concentration to micrograms per milliliter (μM), we have:

11.25 x 10^(-5) M = 11.25 μM

Therefore, the concentration at which 0.75 is equal to the Kd is 11.25 μM, which can also be expressed as 360 μM.

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How many unpaired electrons would you expect on Vanadium in V2O3 Enter an integer.

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Vanadium (V) has an atomic number of 23, which means that it has 23 electrons. To determine the number of unpaired electrons in V2O3, we need to first determine the electron configuration of V in V2O3. There are 2 unpaired electrons on Vanadium in V2O3.

If you're not familiar with electron configurations, here's a brief explanation. Electrons occupy different energy levels (also known as shells or orbitals) around an atom's nucleus. The lowest energy level is filled first before moving on to the next one. The electron configuration of an atom describes how many electrons are in each energy level. For example, V has 23 electrons and its electron configuration is [Ar] 3d3 4s2. This means that there are 2 electrons in the 4s energy level and 3 electrons in the 3d energy level.

In V2O3, the vanadium atoms are in the +3 oxidation state. To determine the number of unpaired electrons, we first need to know the electron configuration of vanadium. The atomic number of vanadium (V) is 23, and its electron configuration is [Ar] 4s2 3d3. When vanadium is in the +3 oxidation state, it loses three electrons. Two electrons are removed from the 4s orbital, and one is removed from the 3d orbital, leaving us with the electron configuration [Ar] 3d2. This means there are two unpaired electrons in the 3d orbital.
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Find the concentration of Ca2+, in equilibrium with CaSO4(s) and 0. 035 M SO4-2.




A solution contains 0. 0330 M Pb2+and 0. 0210 M Ag+. Can 99% of Pb2+be precipitated by chromate(CrO42-), without precipitating Ag+? What will the concentration of Pb2+be, when Ag2CrO4begins to precipitate?



If a solution containing 0. 015 M each of bromide, chloride, iodide, and thiocyanate, is treated with Cu+, in what order will the anions precipitate?

Answers

The concentration of Ca2+ in equilibrium with CaSO4(s) and 0.035 M SO4-2 is approximately 1.41 x 10^-3 M. When a solution containing 0.015 M each of bromide, chloride, iodide, and thiocyanate is treated with Cu+, the order of anion precipitation will be: SCN- (thiocyanate), Br- (bromide), Cl- (chloride), and I- (iodide).

To find the concentration of Ca2+ in equilibrium with CaSO4(s) and 0.035 M SO4-2, we need to use the solubility product constant (Ksp) for CaSO4. The balanced equation for the dissolution of CaSO4 is:

CaSO4(s) ⇌ Ca2+(aq) + SO4-2(aq)

The Ksp expression for CaSO4 is: Ksp = [Ca2+][SO4-2]

Let's assume the concentration of Ca2+ in equilibrium is x. Since CaSO4 is a strong electrolyte, it dissociates completely, so [Ca2+] = x and [SO4-2] = 0.035 M.

Using the Ksp expression, we have: Ksp = (x)(0.035)

Given that the Ksp of CaSO4 is 4.93 x 10^-5, we can solve for x:

4.93 x 10^-5 = x * 0.035

x = 4.93 x 10^-5 / 0.035

x = 1.41 x 10^-3 M

Therefore, the concentration of Ca2+ in equilibrium with CaSO4(s) and 0.035 M SO4-2 is approximately 1.41 x 10^-3 M.

2) To determine if 99% of Pb2+ can be precipitated without precipitating Ag+, we need to compare the solubility products (Ksp) of Pb2CrO4 and Ag2CrO4. The balanced equation for the precipitation reaction of Pb2CrO4 is: Pb2+(aq) + CrO42-(aq) ⇌ PbCrO4(s)

The Ksp expression for PbCrO4 is: Ksp(PbCrO4) = [Pb2+][CrO42-]

Similarly, for Ag2CrO4:

Ag+(aq) + CrO42-(aq) ⇌ Ag2CrO4(s)

Ksp(Ag2CrO4) = [Ag+][CrO42-]

To find if 99% of Pb2+ can be precipitated without precipitating Ag+, we compare the product of [Pb2+] and [CrO42-] with the Ksp(Ag2CrO4) value.

Let's assume the concentration of Pb2+ that can be precipitated is y. Since Pb2CrO4 is a sparingly soluble salt, we can assume that [Pb2+] = y and [CrO42-] = 0.0210 M.

Using the Ksp expression for PbCrO4, we have:

Ksp(PbCrO4) = (y)(0.0210)

Given that the Ksp of PbCrO4 is 1.6 x 10^-13, we can solve for y:

1.6 x 10^-13 = y * 0.0210

y = 1.6 x 10^-13 / 0.0210

y = 7.62 x 10^-12 M

Now we compare the product of [Pb2+] and [CrO42-] with the Ksp(Ag2CrO4) value:

(y)(0.0210) = (7.62 x 10^-12)(0.0210) = 1.60 x 10^-13

Since 1.60 x 10^-13 is smaller than the Ksp(Ag2CrO4) value, which is 1.1 x 10^-12, we can conclude that 99% of Pb2+ can be precipitated without precipitating Ag+.

When Ag2CrO4 begins to precipitate, the concentration of Pb2+ will be equal to the solubility product constant for PbCrO4. Therefore, the concentration of Pb2+ will be 1.6 x 10^-13 M.

3) To determine the order in which the anions precipitate when a solution containing 0.015 M each of bromide (Br-), chloride (Cl-), iodide (I-), and thiocyanate (SCN-) is treated with Cu+, we need to compare the solubility products (Ksp) of the corresponding precipitates.

The order of precipitation will depend on the relative magnitudes of the Ksp values. The lower the Ksp value, the less soluble the compound, and the earlier it will precipitate.

The solubility products (Ksp) for the precipitates are as follows:

CuBr: Ksp = [Cu+][Br-]

CuCl: Ksp = [Cu+][Cl-]

CuI: Ksp = [Cu+][I-]

CuSCN: Ksp = [Cu+][SCN-]

Comparing the Ksp values, we can determine the order of precipitation. The Ksp values for copper halides (CuBr, CuCl, CuI) are generally higher than the Ksp value for copper thiocyanate (CuSCN). Therefore, the order of precipitation will be as follows:CuSCN (thiocyanate) will precipitate first due to its lower Ksp value.

CuBr (bromide) will precipitate second.

CuCl (chloride) will precipitate third.

CuI (iodide) will precipitate last.

In summary, when a solution containing 0.015 M each of bromide, chloride, iodide, and thiocyanate is treated with Cu+, the order of anion precipitation will be: SCN- (thiocyanate), Br- (bromide), Cl- (chloride), and I- (iodide).

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The isotope Iridium has a nuclear mass of 195 and a nuclear number or 77.


How many neutrons is in this isotope?

Answers

Answer: Atomic StructureIridium as 77 protons and 114 neutrons in its nucleus giving it an Atomic Number of 77 and an atomic mass of 192.

Explanation:

Using the provided table and the equation below, determine the heat of formation for PbS. 2 PbS (s) + 3 O₂ (g) → 2 SO₂ (g) + 2 PbO (s) ∆H° = -828.4 kJ/molO2 = OSO2 = -296.9PbO = -217.3

Answers

The heat of formation of PbS is -234.6 kJ/mol.

We can use Hess's law to solve for the heat of formation of PbS:

PbO (s) + SO₂ (g) → PbSO₃ (s) ∆H₁°

2 PbSO₃ (s) → 2 PbS (s) + 2 SO₂ (g) + O₂ (g) ∆H₂° = -828.4 kJ/mol

To cancel out SO₂, we reverse the first reaction and multiply it by 2:

2 PbSO₃ (s) → 2 PbO (s) + 2 SO₂ (g) + O₂ (g) ∆H₁° = -2(OSO2) - O₂

Adding the two reactions together, we get:

2 PbS (s) + 3 O₂ (g) → 2 SO₂ (g) + 2 PbO (s) ∆H° = -828.4 kJ/mol

2 PbSO₃ (s) → 2 PbO (s) + 2 SO₂ (g) + O₂ (g) ∆H₁° = -2(OSO2) - O₂

2 PbS (s) → 2 PbSO₃ (s) ∆H = -828.4 - (-2(OSO2) - O₂) = -828.4 + 593.8 = -234.6 kJ/mol

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Which one of the following pairs reacts in a 1:1 ratio during a neutralization reaction?
H3PO4 + KOH
HClO4 + Ca(OH)2
H2SO4 + Ba(OH)2
H2SO4 + AL(OH)3
H3PO4 + Ca(OH)2

Answers

The pair that reacts in a 1:1 ratio during a neutralization reaction is HClO₄ + Ca(OH)₂.

What combination of compounds results in the formation of a neutral product with an equal stoichiometric ratio?

Among the given pairs, the combination of HClO₄ and Ca(OH)₂ reacts in a 1:1 ratio during a neutralization reaction.

The neutralization reaction involves the transfer of protons (H+) from an acid to hydroxide ions (OH-) from a base, resulting in the formation of water and a salt. In the case of HClO₄ + Ca(OH)₂, one molecule of HClO₄ reacts with one molecule of Ca(OH)₂ to produce one molecule of water and one molecule of a calcium salt.

The balanced equation for this reaction is HClO₄ + Ca(OH)₂ → H₂O + Ca(ClO₄)₂. This indicates a 1:1 stoichiometric ratio between the reactants.

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1. Arrange the gases in order of decreasing density when they are all under STP conditions.
Neon , Helium, Florine, Oxygen
2. Some metals will react with hydrochloric acid to liberate hydrogen gas. The general equation for this reaction is: 2 M(s) + 2x HCl(aq) → 2 MClx(aq) + x H2(g), where x = 1, 2, or 3. In an experiment to determine the molar mass, and therefore the identity, of a reactive metal, a 0.152 g sample of the metal was combined with an excess of 2.0 M HCl(aq). All of the metal was consumed and the hydrogen gas was collected at a pressure of 760 mmHg in a 150 mL vessel at a temperature of 20 oC. If x = 2, what is the metal? (R = 0.08206 atm∙L/mol∙K; 0 oC = 273 K; 1 atm = 760 mmHg). Give the full name of the element (all letters lower case).
3.Calculate the pressure in mmHg of 0.874 g of argon at a temperature of 100 oC, in a 550 mL container. Assume argon behaves as an ideal gas. (R = 0.08206 atm∙L/mol∙K; 0 oC = 273 K; 1 atm = 760 mmHg; atomic mass of argon = 39.95 amu). Give your answer to 3 significant figures.
4.What happens to the volume of an ideal gas inside a balloon if the temperature increases from 25 oC to 100 oC but the pressure and amount of gas remains constant? (0 oC = 273 K).
5.What happens to the volume of an ideal gas if its pressure is tripled and its Kelvin temperature is halved, assuming the moles of gas does not change?

Answers

The volume of the gas inside the balloon will increase if the temperature increases from 25 °C to 100 °C while the pressure and amount of gas remain constant. If the pressure of an ideal gas is tripled and its Kelvin temperature is halved while the number of moles of gas remains constant.

1 - Arranging the gases in order of decreasing density at STP:

Fluorine > Oxygen > Neon > Helium

2 - The balanced chemical equation for the reaction is:

[tex]2M(s) + 2HCl(aq) \rightarrow 2MCl_{2}(aq) + H_{2}(g)[/tex]

From the equation, we see that 1 mole of metal reacts with 1 mole of HCl to produce 1 mole of [tex]H_2[/tex]. We can use the ideal gas law to find the number of moles [tex]H_2[/tex] produced:

PV = nRT

n = PV/RT

n = (760 mmHg)(0.150 L)/(0.08206 atm∙L/mol∙K)(293 K)

n = 0.00607 mol

Since 1 mole of metal produces 1 mole of [tex]H_2[/tex], the molar mass of the metal is equal to the mass of the metal sample divided by the number of moles of metal used:

molar mass = (0.152 g) / (0.00607 mol)

molar mass = 25.0 g/mol

The metal with a molar mass of 25.0 g/mol and x = 2 is magnesium (Mg).

To find the pressure of argon at 100 °C, we first need to convert the temperature to Kelvin:

T = 100 oC + 273 = 373 K

3 - Next, we can use the ideal gas law to find the pressure of the gas:

PV = nRT

n = m/M

n = (0.874 g) / (39.95 g/mol)

n = 0.0219 mol

V = 550 mL = 0.550 L

R = 0.08206 atm∙L/mol∙K

P = nRT/V

P = (0.0219 mol)(0.08206 atm∙L/mol∙K)(373 K) / (0.550 L)

P = 1.49 atm

Finally, we can convert the pressure to mmHg:

P = 1.49 atm × (760 mmHg/1 atm) = 1134 mmHg

Therefore, the pressure of argon at 100 °C in a 550 mL container is 1134 mmHg.

4 - According to Charles's law, the volume of an ideal gas is directly proportional to its temperature, assuming constant pressure and amount of gas. Therefore, if the temperature increases from 25 °C to 100 °C while the pressure and amount of gas remain constant, the volume of the gas inside the balloon will increase.

5 - According to the combined gas law, the volume of an ideal gas is inversely proportional to its pressure and directly proportional to its temperature, assuming a constant amount of gas. Therefore, if the pressure of the gas is tripled and its Kelvin temperature is halved while the number of moles of gas remains constant, the volume of the gas will be reduced to one-third of its original value.

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please help!
question is pictured:

Answers

The paragraph that explains activation energy is given as follows.

Some reactions have enough "activation energy" to overcome the "energy barrier" of the reaction in order to form products. These are called "exothermic reactions". After the products are formed, "energy" is released. In other reactions, the reactants must absorb "activation energy" to overcome the "energy barrier" of the reaction. These reactions are called "endothermic reactions".

Why is activation energy important?

To begin, all chemical processes, even exothermic ones, require activation energy.

Activation energy is required for reactants to move together, overcome repulsion forces, and begin breaking bonds.

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fill in the blank. type of lipid appearance odor stearic acid fatty acid ____ solid white flakes pungent

Answers

Type of lipid appearance odor stearic acid fatty acid Pungent solid white flakes pungent.

Stearic acid is a type of lipid that belongs to the family of saturated fatty acids. It has a straight chain of 18 carbon atoms and is found in many natural sources, such as animal fats and vegetable oils. Stearic acid has a characteristic appearance and odor, which make it easily identifiable.

In terms of appearance, stearic acid is typically found in the form of solid white flakes. These flakes have a waxy texture and are often used in the production of candles, soaps, and other cosmetic products. The solid form of stearic acid is due to its high melting point, which is around 69 degrees Celsius.

In terms of odor, stearic acid has a pungent smell that is often described as fatty or soapy. This odor is due to the chemical structure of stearic acid, which contains a carboxylic acid group. This group is responsible for the acidic odor of stearic acid and also makes it slightly acidic in nature.

Overall, the appearance and odor of stearic acid are important characteristics that make it a valuable ingredient in many industries. Its solid, white flakes are easy to work with and provide a range of functional benefits, while its pungent odor is a useful marker for identifying it in various applications.

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(A) Calculate (in MeV) the binding energy per nucleon for 56Fe. (B) Calculate (in MeV) the binding energy per nucleon for 207Pb.

Answers

The binding energy per nucleon for 56Fe is 8.802 MeV/nucleon, and the binding energy per nucleon for 207Pb is 7.861 MeV/nucleon.

The mass of a 56Fe nucleus is 55.934941 u, which is equivalent to 931.502 MeV/c² (using E=mc²). Therefore, the total binding energy of the nucleus will be;

B = (56 nucleons) × (8.794 MeV/nucleon) = 492.864 MeV

The binding energy per nucleon is then;

B/A = 492.864 MeV / 56 nucleons

= 8.802 MeV/nucleon

Therefore, the binding energy is 8.802 MeV.

The mass of a 207Pb nucleus is 206.975896 u, which is equivalent to 3,842.943 MeV/c². Therefore, the total binding energy of the nucleus is;

B = (207 nucleons) × (7.870 MeV/nucleon) = 1,627.049 MeV

The binding energy per nucleon is then;

B/A = 1,627.049 MeV / 207 nucleons

= 7.861 MeV/nucleon

Therefore, the binding energy is 7.861 MeV.

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In order to assess the spontaneity of a chemical reaction or physical process both the change in ________ and ________ associated with the reactions process must be known

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In order to assess the spontaneity of a chemical reaction or physical process, both the change in enthalpy (ΔH) and entropy (ΔS) associated with the reaction or process must be known.

The summary of the answer is that to determine if a chemical reaction or physical process is spontaneous, we need to consider the changes in both enthalpy and entropy. Enthalpy (ΔH) refers to the heat energy exchanged during a reaction or process. It represents the difference between the energy of the products and the energy of the reactants. A negative ΔH indicates an exothermic reaction or process, where heat is released, while a positive ΔH indicates an endothermic reaction or process, where heat is absorbed. Entropy (ΔS) is a measure of the disorder or randomness in a system. It represents the change in the number of energetically equivalent microstates available to the system. An increase in entropy (positive ΔS) means an increase in disorder, while a decrease in entropy (negative ΔS) means a decrease in disorder. For a reaction or process to be spontaneous, it generally requires a decrease in enthalpy (ΔH < 0) and/or an increase in entropy (ΔS > 0). This can be determined by evaluating the Gibbs free energy change (ΔG), which combines the effects of enthalpy and entropy (ΔG = ΔH - TΔS, where T is the temperature in Kelvin). If ΔG is negative, the reaction or process is spontaneous. If ΔG is positive, the reaction or process is non-spontaneous.

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Which pair of ions should form the ionic lattice with the highest energy?

Answers

The pair of ions that should form the ionic lattice with the highest energy would depend on the specific ions being considered, and would be the pair with the highest charges and smallest sizes.

The energy of an ionic lattice depends on several factors, including the charge and size of the ions, the distance between the ions, and the crystal structure of the lattice.

Generally, the energy of an ionic lattice increases as the charges of the ions and the number of ions in the lattice increase, and as the distance between the ions decreases.

Therefore, the pair of ions that should form the ionic lattice with the highest energy would be those with the highest charges and the smallest sizes.

Ions with higher charges will have a stronger electrostatic attraction to each other, while smaller ions can get closer to each other, resulting in a stronger interaction.

For example, the ions Mg2+ and O2- have higher charges and smaller sizes compared to the ions Na+ and Cl-, so the lattice formed by Mg2+ and O2- would have a higher energy than the lattice formed by Na+ and Cl-.

Similarly, the ions Ca2+ and F- have higher charges and smaller sizes compared to the ions K+ and Br-, so the lattice formed by Ca2+ and F- would have a higher energy than the lattice formed by K+ and Br-.

Therefore, the pair of ions that should form the ionic lattice with the highest energy would depend on the specific ions being considered, and would be the pair with the highest charges and smallest sizes.

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how many total isomers are possible for a molecule of butene that include double bonds? select the correct answer below: 6 5 4 3

Answers

There are a total of six possible isomers for a molecule of butene that includes double bonds. Isomers are compounds with the same molecular formula but different structural arrangements.

In the case of butene, it is a hydrocarbon with four carbon atoms and one double bond. The number of possible isomers can be determined by considering the different ways the carbon atoms can be arranged around the double bond.

In the case of butene, there are two main structural arrangements: cis-butene and trans-butene. Cis-butene has two methyl groups on the same side of the double bond, while trans-butene has methyl groups on opposite sides. These two arrangements can further be classified based on the location of the double bond within the carbon chain.

Considering these factors, the possible isomers for butene are as follows:

1-butene (cis)

2-butene (trans)

2-butene (cis)

2-butene (trans)

1-butene (trans)

1-butene (cis)

Therefore, the correct answer is six isomers for a molecule of butene that includes double bonds.

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Etrahedral complexes have a smaller crystal field splitting energy than octahedral complexes.a. Trueb. False

Answers

The given statement Etrahedral complexes have a smaller crystal field splitting energy than octahedral complexes is b- False.

In general, tetrahedral complexes have a larger crystal field splitting energy (CFSE) than octahedral complexes. This is because the crystal field splitting in tetrahedral complexes is smaller due to the fact that there are fewer ligands surrounding the central metal ion, resulting in less effective electrostatic interactions between the ligands and the metal ion.

As a result, the d orbitals in tetrahedral complexes are less stabilized and have higher energy compared to octahedral complexes.In octahedral complexes, the six ligands are arranged around the central metal ion in an octahedral geometry, resulting in a high degree of symmetry. The electrostatic interactions between the ligands and the metal ion result in a large crystal field splitting, which causes the d-orbitals to split into two sets of orbitals with different energies.

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3. 12. 0 liters of oxygen are held at STP. If it is heated to 215 °C, what will be the new volume of gas if the pressure is also


increased to 220 atm?


a. 0. 045 L


C. 0. 019 L


b. 0. 098 L


d. 0. 053 L

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When 12.0 litres of oxygen at STP (standard temperature and pressure) is heated to [tex]215^0C[/tex] and the pressure is increased to 220 atm, the new volume of gas will be 0.053 L.

According to the ideal gas law, PV = nRT, where P is the pressure, V is the volume, n is the number of moles, R is the ideal gas constant, and T is the temperature. To solve this problem, we can use the formula V2 = (P1 x V1 x T2) / (P2 x T1), where V2 is the new volume, P1 is the initial pressure, V1 is the initial volume, T2 is the new temperature, P2 is the final pressure, and T1 is the initial temperature.

At STP, the temperature is [tex]0^0C[/tex], which is equivalent to 273 K. Therefore, the initial temperature is 273 K, and the initial volume is 12.0 L. Given that the new temperature is [tex]215^0C[/tex], which is equivalent to 488 K, and the final pressure is 220 atm, we can substitute these values into the formula to find the new volume:

V2 = (220 atm x 12.0 L x 488 K) / (1 atm x 273 K)

V2 ≈ 0.053 L

Therefore, the new volume of the gas, when heated to [tex]215^0C[/tex] and under a pressure of 220 atm, is approximately 0.053 L.

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What would the potential of a standard hydrogen electrode (SHE) be if it was under the following conditions?[H+] = 0.68 MPH2 = 2.3 atmT = 298 K

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Therefore, the potential of the SHE under the given conditions is -0.160 V.

To calculate the potential of a standard hydrogen electrode (SHE), the Nernst equation is used. The equation is given as E = E° - (RT/nF) lnQ, where E is the potential, E° is the standard potential, R is the gas constant, T is the temperature in Kelvin, n is the number of electrons transferred in the reaction, F is the Faraday constant, and Q is the reaction quotient.
In the case given, the [H+] concentration is 0.68 M, and the partial pressure of H2 is 2.3 atm, at a temperature of 298 K. The standard potential of a SHE is 0 V.
The reaction taking place at the SHE is 2H+ + 2e- → H2. Thus, n is 2.
Using the values given, we can calculate the reaction quotient as Q = [H2]/[H+]^2, where [H2] is the partial pressure of H2. Substituting the values, we get Q = (2.3 atm) / (0.68 M)^2 = 7.75 atm^-1.
Substituting all values into the Nernst equation, we get:
E = 0 - [(8.314 J/mol*K) * 298 K / (2 * 96485 C/mol)] * ln(7.75)
E = -0.160 V
The potential of the standard hydrogen electrode (SHE) under the given conditions of [H+] = 0.68 M, H2 = 2.3 atm, and T = 298 K would be -0.160 V. This is calculated using the Nernst equation, which takes into account the standard potential of the SHE, the temperature, the number of electrons transferred in the reaction, and the reaction quotient. The SHE acts as a reference electrode in electrochemical cells, and its potential is used as a reference point for other electrode potentials.

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given that f(x)=x 1−−−−−√−2x−3, define the function f(x) at x=3 so that it becomes continuous at x=3 .

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The function f(x) at x = 3 for given the function f(x) = x√(1 - 2x) - 3 so that it becomes continuous at x = 3 is f(3) = 3√(-5) - 3.

We are given the function f(x) = x√(1 - 2x) - 3, to define the function f(x) at x = 3 so that it becomes continuous at x = 3, you need to find the limit of f(x) as x approaches 3. To have a continuous function, the limit of the function as x approaches 3 should be equal to the value of the function at x = 3.

Let's find the limit of f(x) as x approaches 3:

lim (x -> 3) [x√(1 - 2x) - 3]

Substitute x = 3 into the function:

3√(1 - 2(3)) - 3

3√(1 - 6) - 3

3√(-5) - 3

Now, define the function f(x) at x = 3 to be equal to the limit:

f(3) = 3√(-5) - 3

Therefore, the function f(x) is defined at x = 3 as f(3) = 3√(-5) - 3, making it continuous at x = 3.

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Chemical method of monitoring the rate of chemical reaction

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One chemical method of monitoring the rate of a chemical reaction is by measuring the concentration of reactants or products over time using a spectrophotometer.

This method involves adding a reactant or a product that absorbs light at a specific wavelength and measuring the intensity of the light that passes through the solution at that wavelength. As the reaction progresses, the concentration of the absorbing species changes, and so does the amount of light absorbed. By measuring the absorbance of light at specific time intervals, the rate of the reaction can be determined.

This method is widely used in industries such as pharmaceuticals, food processing, and environmental monitoring to optimize reaction conditions and ensure quality control. It is a highly sensitive and accurate method that can detect changes in concentration even at low levels. However, it requires careful calibration and standardization of the instrument to ensure accurate and reproducible results.

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20.0 L of a gas evolved in a fermentation reaction. It had a mass of 39.6 grams. The pressure was 1.1 atm. The temperature was 25 degrees C. What is the gas evolved? A. CH4 (g), methane, formula mass 16 amu B.CO2 (g), carbon dioxide, formula mass 44 amu C. H20 (g), water vapor, formula mass 18 amu D. CH3CH2OH (g), ethanol, formula mass 46 amu

Answers

The gas evolved in the fermentation reaction whose mass of 39.6 grams. The pressure was 1.1 atm. The temperature was 25 degrees C is B. [tex]CO_{2}[/tex] (g), carbon dioxide, formula mass 44 amu

The ideal gas law, PV = nRT, where P is the pressure, V is the volume, n is the number of moles, R is the gas constant, and T is the temperature.

First, we need to convert the given volume of the gas (20.0 L) to the number of moles of gas. We can use the formula n = m/M, where m is the mass of the gas and M is its molar mass. We can calculate the mass per mole of each gas option given, using their respective molar masses:

A. CH4 (g), methane, formula mass 16 amu: 16 g/mol

B. CO2 (g), carbon dioxide, formula mass 44 amu: 44 g/mol

C. H20 (g), water vapor, formula mass 18 amu: 18 g/mol

D. CH3CH2OH (g), ethanol, formula mass 46 amu: 46 g/mol

Using the given mass of the gas (39.6 g), we can calculate the number of moles of the gas, then substitute the values into the ideal gas law to solve for the gas.

n = m/M = 39.6 g / M

P = 1.1 atm

V = 20.0 L

T = 25 + 273.15 = 298.15 K

R = 0.0821 L•atm/mol•K

Substituting these values into the ideal gas law, we get:

(PV)/(RT) = n/M

Solving for M by multiplying both sides by n and dividing by (PV), we get:

M = (nRT)/(PV)

Substituting the given values and solving for M for each option given:

A. M = (nRT)/(PV) = (n0.0821298.15)/(1.120.0) = 16 g/mol

B. M = (nRT)/(PV) = (n0.0821298.15)/(1.120.0) = 44 g/mol

C. M = (nRT)/(PV) = (n0.0821298.15)/(1.120.0) = 18 g/mol

D. M = (nRT)/(PV) = (n0.0821298.15)/(1.120.0) = 46 g/mol

Comparing the calculated molar masses to the given options, we can see that the closest match is option B, [tex]CO_{2}[/tex] (g), with a calculated molar mass of 44 g/mol. Therefore, the gas evolved in the fermentation reaction is likely carbon dioxide. Therefore, Option B is correct.

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Consider a mixture of the amino acids lysine (pI 9.7) tyrosine (pl 5.7), and glutamic acid (pl 3.2) at a pH 5.7 that is subjected to an electric current. towards the positive electrode(+) A) Lysine B) Tyrosine C) Glutamic acid D) All of the amino acids

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The answer to this question is D) All of the amino acids. When subjected to an electric current towards the positive electrode (+) at a pH of 5.7, all three amino acids in the mixture will be affected.

Amino acids are molecules that contain both a carboxyl group (-COOH) and an amino group (-NH2) that can act as both an acid and a base, respectively. At different pH values, these groups can become either positively or negatively charged. The isoelectric point (pI) is the pH at which an amino acid has a net charge of zero.
At a pH of 5.7, all three amino acids in the mixture will have a net positive charge, meaning they will be attracted to the negative electrode (-) and repelled by the positive electrode (+). However, as they move towards the negative electrode (-), they will encounter regions of differing pH values, which can affect their charge and behaviour.
Lysine, with a pI of 9.7, will become increasingly negatively charged as it moves towards the negative electrode (-), causing it to slow down and potentially even reverse direction. Tyrosine, with a pI of 5.7, will remain neutral and unaffected by the electric current. Glutamic acid, with a pI of 3.2, will become increasingly positively charged as it moves towards the negative electrode (-), causing it to accelerate and potentially even reach the electrode.
Overall, the behaviour of the amino acid mixture will be complex and depend on the specific conditions of the electric field and pH gradient. However, all three amino acids will be affected by the electric current in some way.

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Calculate the concentration of ammonium ion that is required to prevent the precipitation of Ba(OH), in a solution with the following equilibrium concentrations: [Ba +1 0.50 M. [NH,] 0.25 M Ba(OH)2(s)-Ba2 +(aq) + 2 OH-(aq) Ksp-5.0 × 10-3 NH 3(aq, + H2O(het NHt (aq) + OH-(aq) Kb = 1.8 × 10-5 Select the correct answer belowA. 1.8 x 10- M B. 45 x 10M C. 0.25 M D. 0.10 M E. 0.50 M

Answers

The concentration of ammonium ion that is required to prevent the precipitation of Ba(OH)2 is 4.5 x 10^-6 M. The correct answer is A. 1.8 x 10^-6 M.

To prevent the precipitation of Ba(OH)2, the concentration of OH- ions in solution should be kept below the value of Ksp/4, where Ksp is the solubility product constant of Ba(OH)2.

Ksp = [Ba2+][OH-]^2 = 5.0 x 10^-3
Ksp/4 = 1.25 x 10^-3

From the equation, we can see that each molecule of Ba(OH)2 dissociates into one Ba2+ ion and two OH- ions. Therefore, the concentration of OH- ions in solution is twice the concentration of Ba(OH)2 that dissolves:

[OH-] = 2[Ba(OH)2] = 2(0.50 M) = 1.00 M

Now we need to calculate the concentration of NH4+ ions required to prevent the precipitation of Ba(OH)2. This can be done by considering the reaction between NH3 and OH- ions, which forms NH4+ and water:

NH3(aq) + H2O(l) ⇌ NH4+(aq) + OH-(aq)

The equilibrium constant for this reaction is the base dissociation constant, Kb, which is given as 1.8 x 10^-5. Therefore:

Kb = [NH4+][OH-]/[NH3] = 1.8 x 10^-5

We can rearrange this equation to solve for [NH4+]:

[NH4+] = Kb[NH3]/[OH-] = (1.8 x 10^-5)(0.25 M)/(1.00 M) = 4.5 x 10^-6 M

Therefore,4.5 x 10^-6 M is the concentration of ammonium ion that is required to prevent the precipitation of Ba(OH)2 is 4.5 x 10^-6 M. The correct answer is A. 1.8 x 10^-6 M.

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The correct answer is D. 0.10 M. To prevent the precipitation of Ba(OH)2, the ion product (Q) of Ba2+ and OH- must be less than the solubility product constant (Ksp) of Ba(OH)2.

From the balanced chemical equation, we can see that for every mole of Ba2+ that reacts, 2 moles of NH4+ are consumed. Thus, the concentration of Ba2+ is 0.50 M, and the concentration of NH4+ is 0.25 M/2 = 0.125 M. To calculate the concentration of OH- in the solution, we need to first calculate the concentration of NH3. Using the equilibrium constant expression for the reaction of NH3 with water, we have:

Kb = [NH4+][OH-]/[NH3] = 1.8 x 10^-5

Since we know the concentration of NH4+ and the initial concentration of NH3 (0.25 M), we can solve for the concentration of OH-:

[OH-] = Kb[NH3]/[NH4+] = (1.8 x 10^-5)(0.25 M)/0.125 M = 3.6 x 10^-5 M

Finally, we can use the ion product expression for Ba(OH)2 to calculate the required concentration of NH4+:

Q = [Ba2+][OH-]^2 = (0.50 M)(3.6 x 10^-5 M)^2 = 6.48 x 10^-11

Since Q is less than Ksp (5.0 x 10^-3), the solution is not saturated with Ba(OH)2 and no precipitation will occur. Therefore, the concentration of NH4+ (0.10 M) is sufficient to prevent the precipitation of Ba(OH)2.

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elaborate on the tire characteristcs that can be used to compare a tire impression with a suspect's tire

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Tire characteristics such as size, shape, tread width, depth, and unique features can all be used to compare a tire impression with a suspect's tire.

The size and shape of the tire are important factors in comparing a tire impression, as they can help determine the make and model of the tire. The width of the tread is also important, as it can help determine the type of vehicle that the tire may have come from.

The depth of the tread pattern is another important characteristic, as it can help determine the age and wear of the tire. A newer tire will have a deeper tread than an older tire, and this can be used to narrow down the pool of potential suspects.

Finally, any unique features on the tire surface, such as cuts or nicks, can be used to identify a specific tire. These features may be unique to a particular tire and can be used to tie a suspect to a specific tire impression.

It helps to identify a potential match and narrow down the pool of suspects in a criminal investigation.

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Tire characteristics that can be used to compare a tire impression with a suspect's tire include tread pattern, wear, and unique marks or defects. These can be used to determine if the impression was made by a particular tire.

Tread pattern is a key characteristic that can be used to compare tire impressions. Each tire has a unique tread pattern that can be identified through analysis of the impression. Wear patterns can also provide information about the tire, such as its age and usage. Unique marks or defects on the tire, such as cuts or punctures, can also be used to identify a particular tire. By comparing these characteristics with the tire of a suspect vehicle, investigators can determine if the impression was made by that particular tire.

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a solution is made by dissolving 15.84 grams of nacl in enough distilled water to five a final volume of 1.00 l. what is the molarity of the solution ?

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The molarity of the NaCl solution is 0.271 M (moles per liter) when 15.84 grams of NaCl is dissolved in 1.00 liter of distilled water.

What is molarity ?

Molarity is a concentration unit widely used in chemistry that measures the amount of solute dissolved in a given volume of solvent. It is defined as the number of moles of solute per liter of solution. It provides a quantitative measure of the concentration of a solute in a solution and allows for consistent comparisons between different solutions. It is a fundamental concept in many aspects of chemistry, from laboratory experiments to industrial processes, enabling precise control and understanding of solution compositions.

The molarity of the solution can be calculated by dividing the number of moles of solute (15.84 g of NaCl) by the volume of the solution (1.00 l):

Molarity = (15.84 g NaCl ÷ 58.44 g/mol NaCl) ÷ 1.00 l

Molarity = 0.27 mol/l

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What is the ph at the half-equivalence point in the titration of a weak base with a strong acid? the pkb of the weak base is 8.60.

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You asked: What is the pH at the half-equivalence point in the titration of a weak base with a strong acid? The pKb of the weak base is 8.60.

To determine the pH at the half-equivalence point, follow these steps:

1. Calculate the pKa from the given pKb:
pKa = 14 - pKb = 14 - 8.60 = 5.40

2. At the half-equivalence point, the concentration of the weak base is equal to the concentration of its conjugate acid.

This is because half of the weak base has been titrated with the strong acid, forming the conjugate acid.

3. At this point, the pH is equal to the pKa of the weak acid (conjugate acid of the weak base).

So, the pH at the half-equivalence point in the titration of a weak base with a strong acid, with a pKb of 8.60, is 5.40.

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The solubility of an ionic compound mx (molar mass = 497 g / mol) is 0.401 g / l. what is ksp for this compound? × 10 enter your answer in scientific notation.

Answers

The Ksp for the compound MX is approximately 6.5 × 10⁻7.

To determine the Ksp (solubility product constant) of the ionic compound MX, you first need to convert the solubility from grams per liter (g/L) to moles per liter (mol/L).

Solubility in mol/L = (0.401 g/L) / (497 g/mol) = 0.00080644 mol/L

Since the compound MX dissociates into ions M⁺ and X⁻ in a 1:1 ratio, their concentrations are also 0.00080644 mol/L each.

Ksp = [M⁺][X⁻] = (0.00080644)(0.00080644) = 6.5035 × 10⁻7

So, the Ksp for the compound MX is approximately 6.5 × 10⁻7.

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Calculate the molar concentration of iodide ions in 3. 58 g of CaI2 (s)? dissolved in 100. 0 mL of solution?

Answers

The molar concentration of iodide ions is 0.366 M.

To find out the molar concentration of iodide ions in a solution containing 3.58 g of CaI2, we need to calculate the number of moles of CaI2 and then determine the number of moles of iodide ions by multiplying the number of moles of CaI2 by 3. This is because CaI2 completely dissociates into three ions in solution. Once we have determined the number of moles of iodide ions, we can use it to calculate the molar concentration of iodide ions in the solution. To do this, we need to divide the number of moles of iodide ions by the volume of the solution in liters.To calculate the number of moles of CaI2 in 3.58 g, we need to divide the mass of CaI2 by its molar mass. The molar mass of CaI2 is calculated as follows:Molar mass of CaI2= 40.08 + 126.90 × 2= 293.88 g/mol.The number of moles of CaI2 can be calculated as follows:moles= mass/molar mass= 3.58 g/293.88 g/mol= 0.0122 mol.Now, since CaI2 completely dissociates into three ions in solution, the number of moles of iodide ions is 3 × 0.0122 mol= 0.0366 mol.The volume of the solution is 100.0 mL, which is equivalent to 0.1000 L. Therefore, the molar concentration of iodide ions is as follows:0.0366 mol/0.1000 L= 0.366 M.

The number of moles of iodide ions is 0.0366 mol, and the molar concentration of iodide ions is 0.366 M when 3.58 g of CaI2 (s) is dissolved in 100.0 mL of solution.

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A 25.0-mL sample of 0.150 M hypochlorous acid, HClO, is titrated with a 0.150 M NaOH solution. What is the pH after 13.3 mL of base is added? The Ka of hypochlorous acid = 3.0 x 10-8.
A. 2.54
B. 7.58
C. 7.46
D. 7.00
E. 7.32

Answers

The 25.0 mL sample of the 0.150 M hypochlorous acid, HClO, is titrated with a 0.150 M NaOH solution. The pH after the 13.3 mL of the base is added is 7.58. The correct option is B.

The HClO reacts with NaOH as follows:

HClO + NaOH → H₂O + NaClO

The concentration of NaClO is:

Concentration =  0.150 M / 2

Concentration = 0.075 M

The equilibrium of the NaClO is:

NaClO(aq) + H₂O(l) ⇄ HClO(aq) + OH-(aq)

Where,

The Kb of the reaction = 1.0 x 10⁻¹⁴ / Ka

= 1.0 x 10⁻¹⁴ / 3.0 x 10⁻⁸

= 3.33x10⁻⁷

= [HClO] [OH-] / [NaClO]

The [NaClO] = 0.075 M

The [HClO] = [OH-] = X

3.33x10⁻⁷ = [X] [X] / [0.075M]

2.5 x 10⁻⁸ = X²

X = 1.58 x 10⁻⁴ M = [OH-]

pH = - log (1.58 x 10⁻⁴)

pH = 7.58.

The correct option is B.

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which alkane would have a lower boiling point? ch3ch3 ch3ch2ch3 ch4

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The alkane with the lower boiling point is CH₄ (methane).

The boiling point of an alkane depends on its molecular weight and the strength of the intermolecular forces between its molecules. CH₄ has the lowest molecular weight and only has weak London dispersion forces between its molecules, resulting in a low boiling point of -161.5°C.

CH₃CH₃ (ethane) has a slightly higher boiling point of -88.6°C because it has more electrons and a larger surface area for London dispersion forces to act upon.

CH₃CH₂CH₃ (propane) has an even higher boiling point of -42.1°C due to its larger size and greater number of electrons, which result in stronger London dispersion forces. In summary, as the molecular weight and size of the alkane increases, and the number of electrons increases, the boiling point increases due to the stronger intermolecular forces.

Therefore, CH₄ has the lowest boiling point among the given option

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A sample of nitrogen gas occupies 9.20 L at 21°C and 0.959 atm. If the pressure is increased to 1.15 atm at constant temperature, what is the newly occupied volume? (2 marks)

Answers

The newly occupied volume is 7.43 L when the pressure is increased to 1.15 atm at constant temperature.

To solve this problem, we can use the combined gas law, which states that the product of pressure and volume is directly proportional to the absolute temperature of a gas. We can write this as P1V1/T1 = P2V2/T2, where P1, V1, and T1 are the initial pressure, volume, and temperature, respectively, and P2 and V2 are the new pressure and volume, respectively, at the same temperature T2.

First, we need to convert the initial temperature of 21°C to Kelvin by adding 273.15, giving us T1 = 294.15 K. Using the given values, we can write:

(0.959 atm)(9.20 L)/(294.15 K) = (1.15 atm)(V2)/(294.15 K)

Solving for V2, we get:

V2 = (0.959 atm)(9.20 L)(294.15 K)/(1.15 atm)(294.15 K) = 7.43 L

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The newly occupied volume of the nitrogen gas will be 7.57 L. This can be calculated using the combined gas law equation, which relates the initial and final pressure and volume of the gas at constant temperature.

Using the combined gas law equation (P1V1/T1) = (P2V2/T2), we can solve for the final volume (V2).

Given P1 = 0.959 atm, V1 = 9.20 L, P2 = 1.15 atm and T1 = T2 (since temperature is constant), we have:

(0.959 atm) x (9.20 L) / (294 K) = (1.15 atm) x (V2) / (294 K)

Solving for V2, we get V2 = (0.959 atm x 9.20 L x 294 K) / (1.15 atm x 294 K) = 7.57 L. Therefore, the newly occupied volume of the nitrogen gas is 7.57 L.

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