Name: CH 103 - Introduction to Inorganic and Organic Chemistry Exp. 14 -Solutions and solubility INSTRUCTIONS 1. Print out these instructions and the report sheet. 2. Read the Background/Introduction section of the tab manual and watch the introductory video 3. Watch the video attached under experiment 4. Study the report sheet below and answer the three questions attached. REPORT SHEET Electrical Conductivity Solute Observation Observation 0 O 1 5 Distilled Water Tap Water 1 M Naci 0.1 M Naci Solute 0.1 M sucrose IMHCI 0.1 M HCI Glacial Acetic Acid 0.1 M Acetic Acid 5 4 4 0 1 M sucrose 0 1 Solubility Solvent Ethanol Solute Water Acetone S SS SS 1 Naci Sugar Napthalene S 1 SS 5 SUPPLEMENTARY QUESTIONS 1. Why is naphthalene more soluble in acetone than in water? 2. Why does HCL make the light bulb glow brighter than acetic acid of the same concentration? 3. A solute and a solvent are mixed together. How could you predict if the two items would form a solution?

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Answer 1

Naphthalene is more soluble in acetone than water because it is a nonpolar hydrocarbon compound consisting of two fused benzene rings. Acetone is a polar solvent, whereas water is a highly polar solvent.

Polar solvents have a net dipole moment due to the presence of polar bonds, while nonpolar solvents do not have a net dipole moment.

When a solute dissolves in a solvent, it must overcome the intermolecular forces that hold the solvent molecules together. In general, a solute dissolves in a solvent if the intermolecular forces between the solute and the solvent are similar in strength to the intermolecular forces between the solvent molecules themselves.

In the case of naphthalene and acetone, the nonpolar naphthalene molecules can dissolve in the polar acetone solvent due to the presence of temporary dipole-induced dipole interactions between the nonpolar naphthalene molecules and the polar acetone molecules. These interactions, also known as London dispersion forces, are weak intermolecular forces that arise from the fluctuations in electron density within molecules.

In contrast, naphthalene is much less soluble in water, which is a polar solvent with strong hydrogen bonding between the water molecules. The nonpolar naphthalene molecules cannot easily overcome the strong hydrogen bonds between water molecules to dissolve in water. In addition, the polar water molecules do not form favorable interactions with the nonpolar naphthalene molecules.

In summary, naphthalene is more soluble in acetone than in water because acetone is a polar solvent that can form weak intermolecular interactions with the nonpolar naphthalene molecules, whereas water is a highly polar solvent that cannot form favorable interactions with the nonpolar naphthalene molecules due to the strength of its hydrogen bonding.

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Related Questions

the most stable (tightly bound) atomic nucleus in the universe is:

Answers

The most stable (tightly bound) atomic nucleus in the universe is the nucleus of iron-56 (56Fe). It has the highest binding energy per nucleon among all known elements.

Nuclear stability is determined by the balance between the strong nuclear force, which holds the nucleus together, and the electrostatic repulsion between protons, which tends to push the nucleus apart.

The binding energy per nucleon is a measure of the stability of a nucleus, indicating the amount of energy required to separate a nucleon from the nucleus.

Iron-56 has the highest binding energy per nucleon compared to other elements.

This means that, on average, the nucleons in iron-56 are more tightly bound than in any other nucleus. As a result, iron-56 is the most energetically favorable configuration, and any deviation from this configuration tends to release energy, either through fusion or fission reactions.

The stability of iron-56 is crucial for stellar nucleosynthesis, as it represents a key endpoint in the fusion processes occurring in the cores of massive stars.

It also plays a significant role in determining the relative abundance of elements in the universe.

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For 6 points, determine the Ksp of Cd(OH)2. Its solubility is 1.2 x 10-6. a. 2.4 x 10-6 b. 1.4 x 10-12 c. 6.9 x 10-18 d. 1.7 x 10-18 e. None of the above

Answers

The Ksp of Cd(OH)₂ is option b- 1.44 x 10⁻¹² when the solubility is 1.2 x 10⁻⁶.

The solubility product constant (Ksp) is a measure of the solubility of a compound in water. It represents the equilibrium constant for the dissolution of an ionic compound into its constituent ions. For the compound Cd(OH)₂, it dissociates into Cd²⁺ and 2OH⁻ ions.

The solubility of Cd(OH)₂ is given as 1.2 x 10⁻⁶, which represents the concentration of Cd²⁺ ions in solution. Since Cd(OH)₂ dissociates into Cd²⁺ and 2OH⁻ ions, the concentration of OH⁻ ions can be calculated as twice the concentration of Cd²⁺ ions.

Using the concentrations of Cd²⁺ and OH⁻ ions, we can set up the expression for the Ksp as follows:

Ksp = [Cd²⁺][OH⁻]²

Substituting the given solubility of Cd(OH)₂ (1.2 x 10⁻⁶) into the expression, we have:

Ksp = (1.2 x 10⁻⁶)(2(1.2 x 10⁻⁶))² = 1.44 x 10⁻¹²

Therefore, the Ksp of Cd(OH)₂ is 1.44 x 10⁻¹²,

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How many grams of potassium iodide, , are present in 275 mL of a 0. 23 M solution?

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The amount of potassium iodide present in 275 mL of a 0.23 M solution is 13.32 grams.

To find the amount of potassium iodide present in the solution, we need to use the formula:

Molarity = moles of solute/ volume of solution in liters

We are given the volume of the solution as 275 mL, which is the same as 0.275 L. We are also given the molarity as 0.23 M.

Rearranging the formula, we get:

moles of solute = Molarity x volume of solution in liters

moles of solute = 0.23 M x 0.275 L

moles of solute = 0.06325 mol

Finally, we can convert moles to grams using the molar mass of potassium iodide, which is 166.0028 g/mol.

grams of potassium iodide = moles of solute x molar mass

grams of potassium iodide = 0.06325 mol x 166.0028 g/mol

grams of potassium iodide = 13.32 grams.

Therefore, there are 13.32 grams of potassium iodide present in 275 mL of a 0.23 M solution.

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Which combination of carbonyl compound and amine can be used to prepare the following product by reductive amination?

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Since reductive amination involves the reaction of a carbonyl compound (such as an aldehyde or a ketone) with an amine in the presence of a reducing agent (such as sodium borohydride or lithium aluminum hydride), we need to first identify the carbonyl compound and amine that would react to form the given product.

The given product likely results from the reduction of an imine functional group, which is typically formed by the condensation of a carbonyl compound and an amine.

The imine can be reduced to the corresponding amine by a reducing agent in the presence of acid.

In this case, the product has a six-membered aromatic ring and a nitrogen-containing functional group, which suggests that the starting materials may be a cyclic ketone or aldehyde and an aromatic amine.

One possible combination of starting materials that can be used to prepare the given product is cyclohexanone and aniline.

The reaction would proceed as follows:

1. Condensation: Cyclohexanone reacts with aniline to form the imine intermediate:

   H2N-C6H5 + (CH2)5CO → H2N-C6H5-CH2-C5H10O

2. Reduction: The imine intermediate is reduced to the corresponding amine using sodium borohydride in the presence of acid:

H2N-C6H5-CH2-C5H10O + NaBH4 + H+ → H2N-C6H5-CH2-C5H10NH2 + NaOH + BH3

The final product is 1-(cyclohexylamino)-2,4,5-trimethylbenzene:

H2N-C6H5-CH2-C5H10NH2 + CH3-C6H2(CH3)3 → H2N-C6H5-CH2-C5H10-N-(2,4,5-trimethylphenyl)

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how does the difference in acids in these two reactions affect the stoichiometry of the reaction? does it increase or decrease the amount of hydrogen produced?

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The difference in acids in the two reactions can have an impact on the stoichiometry of the reaction.

For example, if you were to compare the reaction of hydrochloric acid (HCl) with zinc (Zn) to the reaction of sulfuric acid (H2SO4) with zinc, you would see a difference in the amount of hydrogen gas (H2) produced.

In the reaction of HCl with Zn, the stoichiometry is 2HCl + Zn → ZnCl2 + H2, meaning that for every two moles of HCl reacted, one mole of H2 is produced.

However, in the reaction of H2SO4 with Zn, the stoichiometry is Zn + H2SO4 → ZnSO4 + H2, meaning that for every one mole of H2SO4 reacted, one mole of H2 is produced.

Therefore, the difference in acids affects the stoichiometry of the reaction and can impact the amount of hydrogen gas produced. In this case, using HCl would require more acid to produce the same amount of hydrogen gas as using H2SO4.

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select the best answer that is true about this reaction. hcl(aq) ca(oh)2(aq) → 2 h2o(l) 2 cacl2(aq)

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The reaction between HCl and Ca(OH)2 is a double displacement neutralization reaction that produces CaCl2 and H2O as products, while the Ca2+ and Cl- ions remain in solution as spectator ions.

The given chemical equation represents a double displacement reaction between hydrochloric acid (HCl) and calcium hydroxide (Ca(OH)2), which produces water (H2O) and calcium chloride (CaCl2) as the products.

The reaction can be understood in terms of the following ionic equation:

H+(aq) + Cl-(aq) + Ca2+(aq) + 2OH-(aq) → 2H2O(l) + Ca2+(aq) + 2Cl-(aq)

In this equation, the H+ and Cl- ions from HCl combine with the Ca2+ and OH- ions from Ca(OH)2 to form H2O and CaCl2. The Ca2+ and Cl- ions remain in solution, indicating that they are spectator ions that do not participate in the reaction.

This reaction is also a neutralization reaction, as an acid (HCl) reacts with a base (Ca(OH)2) to form a salt (CaCl2) and water. The balanced equation shows that two moles of HCl react with one mole of Ca(OH)2 to form two moles of CaCl2 and two moles of H2O.

It is important to note that this reaction is exothermic, meaning it releases heat. This is because the formation of H2O molecules is accompanied by a release of energy.

Overall, the reaction between HCl and Ca(OH)2 is a double displacement neutralization reaction that produces CaCl2 and H2O as products, while the Ca2+ and Cl- ions remain in solution as spectator ions.

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The following enzyme-catalyzed reaction follows zero-order kinetics. When the concentration of the reactant doubles, the reaction rate will_____
S→→ P
A. remain the same
B. double
C. quadrupole
D. halve

Answers

Changing the concentration of the reactant does not affect the rate of the reaction.

What happens to the rate of a zero-order enzyme-catalyzed reaction?

In a zero-order reaction, the rate of the reaction remains constant regardless of changes in the concentration of the reactant. This means that doubling the concentration of the reactant will not affect the rate of the reaction.

This is because in a zero-order reaction, the reaction rate is determined solely by the concentration of the enzyme, and not by the concentration of the reactant.

Therefore, changing the concentration of the reactant does not affect the rate of the reaction.

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The reaction rate will remain the same when the concentration of the reactant doubles. So, the option is A.

In zero-order kinetics, the reaction rate is independent of the concentration of the reactant. This means that even if the concentration of the reactant doubles, the reaction rate will not change. Example of zero-order kinetics: The breakdown of alcohol in the liver follows zero-order kinetics. Regardless of how much alcohol is in the bloodstream, the liver can only process a certain amount per hour, so the breakdown rate remains constant.

Zero-order kinetics refers to a reaction where the rate of the reaction is independent of the concentration of the reactant. In enzyme kinetics, zero-order kinetics occurs when the reaction rate is limited by the rate of the enzymatic reaction itself rather than the concentration of the substrate.

Not all enzyme-catalyzed reactions follow zero-order kinetics, as some reactions may follow first-order or second-order kinetics, depending on the reaction mechanism and the concentration of the substrate.

In the given scenario, if the concentration of the reactant doubles, the reaction rate will remain the same since the reaction is following zero-order kinetics. Therefore, the option is A. remain the same.


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The copper mineral chalcocite, Cu2S, can be converted to copper simply by heating in air: Cu,S(s) + O2(g) →2Cu(s) + SO2(g) 1st attempt Part 1 (1 point) How much Cu2S is needed to make 235.0 g Cu? ____g Cu S used Part 2 (1 point) How much SO 2 is produced? ____g SO2 produced

Answers

The amount of Cu₂S is needed to be make the 235.0 g of the Cu 294.15 g Cu₂S.

The amount of SO₂ is 118.4 g.

The chemical equation is as :

Cu₂S(s)  +  O₂(g)   ---->  2Cu(s)   +  SO₂(g)

The mass of the Cu = 235 g

The moles of the Cu = mass /molar mass

The moles of the Cu = 235 g / 63.5 g/mol

The moles of Cu = 3.7 mol

The 2 moles of Cu produces by 1 mol of Cu₂S

The moles of Cu₂S = 3.7 / 2

The moles of Cu₂S = 1.85 mol

The mass of Cu₂S = 1.85 × 159

The mass of Cu₂S = 294.15 g

The 1 moles of SO₂ produces by 1 mole of Cu₂S

The mole of SO₂ = 1.85 mol

The mass of SO₂ = 1.85 × 64

The mass  of SO₂ = 118.4 g.

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The mass of Cu₂S needed to make 35.0 g of Cu is 294.17 gThe mass of SO₂ produced from the reaction is 118.33 g

1. How do i determine the mass of Cu₂S needed?

The mass of Cu₂S needed can be obtained as follow:

Cu₂S(s) + O₂(g) -> 2Cu(s) + SO₂(g)

Molar mass of Cu₂S = 159.1 g/molMass of Cu₂S from the balanced equation = 1 × 159.1 = 159.1 g Molar mass of Cu = 63.55 g/molMass of Cu from the balanced equation = 2 × 63.55 = 127.1 g

From the balanced equation above,

127.1 g of Cu were obtained from 159.1 g of Cu₂S

Therefore,

235.0 g of Cu will be obtain from = (235.0 × 159.1) / 127.1 = 294.17 g of Cu₂S

Thus, the mass of Cu₂S needed is 294.17 g

2. How do i determine the mass of  SO₂ produced?

The mass of  SO₂ produced from the reaction can be obtain as illustrated below:

Cu₂S(s) + O₂(g) -> 2Cu(s) + SO₂(g)

Molar mass of Cu₂S = 159.1 g/molMass of Cu₂S from the balanced equation = 1 × 159.1 = 159.1 g Molar mass of SO₂ = 64 g/molMass of Cu from the balanced equation = 1 × 64 = 64 g

From the balanced equation above,

159.1 g of Cu₂S reacted to produce 64 g of SO₂

Therefore,

294.17 g of Cu₂S will react to produce = (294.17 × 64) / 159.1 = 118.33 g of SO₂

Thus, the mass of SO₂ produced is 118.33 g

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Suppose that the wavenumber of the J = 1 ← 0 rotational transition of 1H81Br considered as a rigid rotor was measured to be 14.17 cm-1, what is
(a) the moment of inertia of the molecule? ans=_____ kg-m2
(b) the bond length? ans= ______ Angstroms
(Given the isotopic masses:(m(79Br) = 78.9183 amu, m(81Br) = 80.9163 amu)

Answers

In spectroscopy, the term "wavenumber" is used to express the frequency of electromagnetic radiation. It is inversely related to wavelength and is defined as the number of waves per unit of space.

The term "wavenumber" is used to characterise a wave's spatial frequency. It is frequently used to determine the frequency of electromagnetic radiation in spectroscopy. The number of waves per unit distance is known as a wavenumber, and it is commonly given in reciprocal centimetres (cm1) or inverse metres (m1).

The wavenumber is represented by the x-axis in an infrared (IR) spectrum, and the % transmission or absorption of light is shown by the y-axis. In the IR spectrum, wavenumber and photon energy are closely connected. More energetic vibrations or chemical transitions are indicated by higher wavenumbers, which are correlated with higher energy levels. Lower wavenumbers, on the other hand, signify lower energy levels and less vigorous molecular movements.

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2 h2o2 thermodynamically favorable. what are the signs of g and s

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The reaction [tex]2H_{2} O_{2}[/tex] → [tex]2H_{2} O + O_2[/tex] is thermodynamically favorable, meaning it occurs spontaneously in the forward direction under standard conditions.

The signs of ΔG (change in Gibbs free energy) and ΔS (change in entropy) can provide further insights into the thermodynamics of the reaction. In the given reaction, the formation of water and oxygen from hydrogen peroxide is accompanied by a decrease in the system's free energy. Thus, the ΔG value for this reaction is negative, indicating that it is exergonic and releases energy. This negative ΔG indicates that the reaction is thermodynamically favorable and tends to proceed in the forward direction. As for the ΔS value, the reaction involves the formation of two moles of water and one mole of oxygen from two moles of hydrogen peroxide. Since the products have a greater number of moles than the reactants, the ΔS value for this reaction is positive. This positive ΔS indicates an increase in entropy, reflecting a greater degree of randomness or disorder in the system.

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The addition of hydroiodic acid to a silver nitrate solution precipitates silver iodide according to the reaction:
AgNO3(aq)+HI(aq)→AgI(s)+HNO3(aq)
When 50.0 mL of 5.00×10−2 M AgNO3 is combined with 50.0 mL of 5.00×10−2 M HI in a coffee-cup calorimeter, the temperature changes from 22.40 ∘C to 22.91∘C.
Part A
Calculate ΔHrxn for the reaction as written. Use 1.00 g/mL as the density of the solution and Cs=4.18J/(g⋅∘C) as the specific heat capacity of the solution.
Express the energy to two significant figures and include the appropriate units.

Answers

Expressed to two significant figures, the value of ΔHrxn is -8.6×10⁴ J/mol. The appropriate units are Joules per mole of AgNO₃ reacted.

The ΔHrxn for the reaction can be calculated using the equation:

ΔHrxn = -(qrxn)/(n)

where qrxn is the heat absorbed or released by the reaction and n is the number of moles of limiting reagent.

First, we need to calculate the amount of heat absorbed or released by the reaction, qrxn. This can be done using the equation:

qrxn = C × ΔT × m

where C is the specific heat capacity of the solution, ΔT is the change in temperature, and m is the mass of the solution.

We are given that the initial and final temperatures of the solution are 22.40 ⁰C and 22.91⁰C, respectively. Therefore, ΔT = 0.51⁰C. The mass of the solution can be calculated using its density and volume:

mass = density × volume = 1.00 g/mL × 100.0 mL = 100.0 g

Substituting the given values into the equation for qrxn, we get:

qrxn = 4.18 J/(g⋅⁰C) × 0.51⁰C × 100.0 g = 214.2 J

Next, we need to determine the number of moles of limiting reagent, which is the reactant that is completely consumed in the reaction. In this case, both reactants have the same molar concentration, so we can assume that they are both limiting.

Therefore, the number of moles of limiting reagent is:

n = (50.0 mL × 5.00×10⁻² mol/mL) / 1000 mL/L = 2.50×10⁻³ mol

Finally, we can substitute the values for qrxn and n into the equation for ΔHrxn to obtain:

ΔHrxn = -(214.2 J) / (2.50×10⁻³ mol) = -8.57×10⁴ J/mol

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how much heat kj is requried to warm 10.0 grams of ice , initiall at -10.0c to steam at 110.0 c

Answers

The amount of heat required to warm 10.0 grams of ice from -10.0°C to steam at 110.0°C is 29,513 J or 29.5 kJ.

To solve this problem, we need to break it down into several steps, since the heat required to warm the substance depends on its phase and temperature.

Heating the ice from -10.0°C to 0°C

The first step is to heat the ice from its initial temperature of -10.0°C to its melting point at 0°C. To do this, we need to calculate the heat required using the formula;

Q = m × C × ΔT

where Q is heat required, m is mass of the substance, C is specific heat capacity of the substance, and ΔT is the change in temperature.

The specific heat capacity of ice will be 2.09 J/g°C, so;

Q₁ = 10.0 g × 2.09 J/g°C × (0°C - (-10.0°C)) = 209 J

Melting the ice at 0°C

Next, we need to calculate the heat required to melt the ice at 0°C. The heat of fusion of ice will be 334 J/g, so;

Q₂ = 10.0 g × 334 J/g = 3340 J

Heating the water from 0°C to 100°C

Now that all the ice has melted, we need to heat the resulting water from 0°C to its boiling point at 100°C. The specific heat capacity of water is 4.18 J/g°C, so;

Q₃ = 10.0 g × 4.18 J/g°C × (100°C - 0°C) = 4180 J

Vaporizing the water at 100°C

Once the water reaches its boiling point at 100°C, we need to vaporize it into steam. The heat of vaporization of water will be 40.7 kJ/mol, or 2260 J/g. Since we know that 18.0 g of water make up one mole, we can calculate the heat required to vaporize 10.0 g of water as;

Q₄ = 10.0 g × 2260 J/g = 22,600 J

Heating the steam from 100°C to 110°C

Finally, we need to heat the steam from 100°C to its final temperature of 110°C. The specific heat capacity of steam is 1.84 J/g°C, so;

Q₅ = 10.0 g × 1.84 J/g°C × (110°C - 100°C) = 184 J

Total heat required

To find the total heat required to warm the ice from -10.0°C to steam at 110.0°C, we simply add up all the heats calculated in the previous steps;

[tex]Q_{total}[/tex] = Q₁ + Q₂ + Q₃ + Q₄ + Q₅

= 209 J + 3340 J + 4180 J + 22,600 J + 184 J

= 29,513 J

Therefore, the amount of heat is 29,513 J or 29.5 kJ.

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an ether substituent on a benzene ring directs the second substituent to what position?

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An ether substituent on a benzene ring is an electron-donating group, which means it will direct the second substituent to the ortho- or para- position.

An ether substituent on a benzene ring acts as an electron-donating group, which directs the second substituent to the ortho and para positions. This is due to the resonance effect of the ether group, which increases electron density at the ortho and para positions on the benzene ring, making these sites more nucleophilic and thus more reactive towards electrophilic substitution reactions.

If the ether group is located at the ortho position (1,2-position) or the para position (1,4-position), it is considered an activating group, and it will direct the second substituent to the meta position (1,3-position). This is because the ether group is electron-donating, which increases the electron density of the ring, making the meta position more electron deficient and thus more attractive to electron-withdrawing substituents.

So, the orientation of the second substituent on a benzene ring with an ether substituent depends on the position of the ether group on the ring.

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Just as the ether substituent, many other groups also influence the position of supplementary substituents.

An ether substituent on a benzene ring directs the second substituent to the ortho or para position due to increased electron density.

An ether substituent on a benzene ring directs the second substituent to the ortho or para position.

This happens because an ether group (R-O-) is an electron-donating group that activates the benzene ring, increasing its electron density.

As a result, electrophilic substitution reactions, such as the addition of a second substituent, are more likely to occur at positions ortho or para to the ether group.

An ether substituent on a benzene ring directs the second substituent to the ortho or para position due to its electron-releasing nature.

This effect is crucial in predicting products of aromatic substitution reactions. It's the essence of various behaviors in organic chemistry.

In the field of organic chemistry, the positioning of substituents on a benzene ring can significantly impact the characteristics of the compound.

When we talk about an ether substituent on a benzene ring, it behaves as an ortho-, para- directing group. This means that it tends to direct the second substituent to the ortho or para position relative to itself on the benzene ring.

These positions are neighboring to the bonded carbon (ortho) and opposite to it (para).

This directionality arises from the electron-releasing nature of the ether group, which increases electron density at the ortho and para positions, making these positions more susceptible to electrophilic attack.

For example, If we have an anisole (methoxybenzene), which is a type of ether, the methoxy (OCH3) group would direct a second substituent to the ortho and para positions on the benzene ring.

In organic chemistry, understanding these directing effects is crucial in predicting the products of aromatic substitution reactions.

Just as the ether substituent, many other groups also influence the position of supplementary substituents.

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what can be added to silver bromide to promote dissolution?

Answers

To promote dissolution of silver bromide, one can add potassium cyanide (KCN).

When silver bromide is exposed to light, it undergoes a chemical reaction and produces silver ions and bromide ions. These ions can recombine to form silver bromide again, which makes it difficult to dissolve the compound.

However, by adding potassium cyanide, the cyanide ions react with the silver ions to form a complex ion, Ag(CN)₂⁻, which is soluble in water. This prevents the recombination of the silver and bromide ions, allowing the silver bromide to dissolve more easily.

It is worth noting that potassium cyanide is a highly toxic substance and should be handled with extreme care. Additionally, the use of cyanide in any form should be strictly regulated and controlled due to its potential harm to humans and the environment.

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The following table gives the millions of metric tons of carbon dioxide (CO2) emissions from biomass energy combustion in a certain country for selected years from 2010 and projected to 2032.
Year CO2
emissions Year CO2
emissions
2010 339.5 2022 556.2
2012 362.5 2024 593.9
2014 395.1 2026 628.7
2016 421.8 2028 664.1
2018 454.1 2030 704.1
2020 498.4 2032 742.7
(b) Find an exponential function that models the data. (Round all numerical values to three decimal places.)
y =

Answers

(b) The exponential function that models the data is:  y = [tex]339.5(1.048)^t[/tex]

To find an exponential function that models the data, we can use the formula for exponential growth: y = [tex]a(1+r)^t[/tex], where y is the CO2 emissions in millions of metric tons, t is the year (with 2010 being t=0), a is the initial CO2 emissions, and r is the annual growth rate as a decimal.

Using the given data, we can find the initial CO2 emissions, a, by plugging in t=0:

339.5 = a(1+r)⁰
a = 339.5

Now, we can use any two points from the table to solve for the growth rate, r. Let's use the points for 2010 and 2022:

556.2 = 339.5(1+r)¹²

Dividing both sides by 339.5 and taking the twelfth root of both sides, we get:

(1+r) = [tex](556.2/339.5)^{(1/12)[/tex]
r = 0.048

Now we have all the values we need to write the exponential function:

y = [tex]339.5(1+0.048)^t[/tex]

Rounding all numerical values to three decimal places, the exponential function that models the data is:

y = [tex]339.5(1.048)^t[/tex]

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under aerobic conditions, pyruvate can be decarboxylated to yield acetyl coa and co2. which carbons of glucose must be labeled with 14c to yield 14co2?

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First we need to understand the process of aerobic respiration. In the first step of this process, glucose is broken down into two molecules of pyruvate through a series of reactions called glycolysis. Under aerobic conditions, pyruvate then enters the mitochondria, where it is further broken down to produce energy in the form of ATP.

Now, to answer the question, we need to know which carbons of glucose contribute to the carbon dioxide produced during aerobic respiration. During the decarboxylation of pyruvate, one carbon is released as CO2, which means that this carbon must have come from the original glucose molecule. To yield 14CO2, we need to label the carbon that is released during the decarboxylation with 14C.

This carbon is located at the third position in glucose, which is also the third carbon in pyruvate. Therefore, to yield 14CO2, we need to label the third carbon of glucose with 14C. It is important to note that this label will be present in all molecules derived from glucose, including pyruvate, acetyl CoA, and CO2. Thus, the label will be detected in the CO2 produced during aerobic respiration.

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The heat of fusion Δ, of benzene (C6H6) is 10.6 kJ/mol. Calculate the change in entropy AS when 2.3 g of benzene freezes at 56 °C Be sure your answer contains a unit symbol. Round your answer to 2 significant digits.

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The change in entropy when 2.3 g of benzene freezes at 56 °C is 0.9 J/K.

To calculate the change in entropy (ΔS) when 2.3 g of benzene freezes, we need to use the equation:

ΔS = ΔH / T

where ΔH is the heat of fusion, and T is the freezing temperature.

First, we need to convert the mass of benzene from grams to moles. The molar mass of benzene is:

C6H6: 6(12.01 g/mol) + 6(1.01 g/mol) = 78.11 g/mol

2.3 g / 78.11 g/mol = 0.0295 mol

Next, we need to calculate the heat absorbed by 0.0295 mol of benzene during freezing:

ΔH = nΔHf = (0.0295 mol)(10.6 kJ/mol) = 0.3127 kJ

Finally, we can calculate the change in entropy:

ΔS = ΔH / T = 0.3127 kJ / (56 + 273) K = 0.0009 kJ/K

We can convert the units of kJ/K to J/K:

0.0009 kJ/K x 1000 J/kJ = 0.9 J/K

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Write the net ionic equations that occur in the following cells:
1. Pb/Pb2+ // Ag+/Ag
2. Zn/Zn2+ // Pb2+/Pb
3. Al/Al3+ // Cd2+/Cd

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The net ionic equation is; Pb(s) + 2Ag⁺(aq) → Pb²⁺(aq) + 2Ag(s),  Zn(s) + Pb²⁺(aq) → Zn²⁺(aq) + Pb(s), and 2Al(s) + 3Cd²⁺(aq) → 2Al³⁺(aq) + 3Cd(s)

A net ionic equation is a chemical equation that only includes the species that are involved in the reaction and excludes the spectator ions. Spectator ions are ions that do not participate in the reaction and do not undergo any chemical changes.

Anode; Pb(s) → Pb²⁺(aq) + 2e⁻

Cathode; 2Ag⁺(aq) + 2e⁻ → 2Ag(s)

Overall; Pb(s) + 2Ag⁺(aq) → Pb²⁺(aq) + 2Ag(s)

Net ionic equation; Pb(s) + 2Ag⁺(aq) → Pb²⁺(aq) + 2Ag(s)

Anode; Zn(s) → Zn²⁺(aq) + 2e⁻

Cathode; Pb²⁺(aq) + 2e⁻ → Pb(s)

Overall; Zn(s) + Pb²⁺(aq) → Zn²⁺(aq) + Pb(s)

Net ionic equation; Zn(s) + Pb²⁺(aq) → Zn²⁺(aq) + Pb(s)

Anode; Al(s) → Al³⁺(aq) + 3e⁻

Cathode; Cd²⁺(aq) + 2e⁻ → Cd(s)

Overall; 2Al(s) + 3Cd²⁺(aq) →2Al³⁺(aq) + 3Cd(s)

Net ionic equation; 2Al(s) + 3Cd²⁺(aq) → 2Al³⁺(aq) + 3Cd(s)

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what volume of 0.200 m k2c2o4 is required to react completely with 30.0 ml of 0.100 m fe(no3)3? 2fe(no3)3 3k2c2o4fe2(c2o4)3 6kno3

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11.25 mL of 0.200 M K₂C₂O₄ is required to react completely with 30.0 mL of 0.100 M Fe(NO₃)₃ (iron(III) nitrate).

The balanced chemical equation for the reaction is:

2Fe(NO₃)₃ + 3K₂C₂O₄ → Fe₂(C₂O₄)₃ + 6KNO₃

From the balanced equation, we can see that 3 moles of K₂C₂O₄ are required to react with 2 moles of Fe(NO₃)₃.

First, we can calculate the number of moles of Fe(NO₃)₃ in 30.0 mL of 0.100 M solution:

n(Fe(NO₃)₃) = (0.100 mol/L) x (30.0 mL/1000 mL) = 0.003 mol

According to the stoichiometry of the reaction, 1.5 times more moles of K₂C₂O₄ are required to react with Fe(NO₃)₃.

n(K₂C₂O₄) = (1.5 mol) x (0.003 mol/2 mol) = 0.00225 mol

Finally, we can calculate the volume of 0.200 M K₂C₂O₄ required to obtain 0.00225 mol:

V = n / c = 0.00225 mol / 0.200 mol/L = 0.01125 L = 11.25 mL

Therefore, 11.25 mL of 0.200 M K₂C₂O₄ is required to react completely with 30.0 mL of 0.100 M Fe(NO₃)₃.

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Calculate the molarity of solution of "sodium sulfate" that contains 5. 2 grams sodiums sulfate diluted to 500mL

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The molarity of the sodium sulfate solution is 0.0732 M.

To calculate the molarity of a sodium sulfate  solution that contains 5.2 grams of sodium sulfate diluted to 500 mL, we need to convert the mass of sodium sulfate to moles and divide it by the volume in liters.

First, we calculate the molar mass of sodium sulfate:

Na = 22.99 g/mol (atomic mass of sodium)

S = 32.07 g/mol (atomic mass of sulfur)

O = 16.00 g/mol (atomic mass of oxygen)

Molar mass of Na2SO4 = (2 * 22.99) + 32.07 + (4 * 16.00) = 142.04 g/mol

Next, we convert the mass of sodium sulfate to moles:

moles = mass / molar mass

moles = 5.2 g / 142.04 g/mol = 0.0366 mol

Now, we convert the volume of the solution to liters:

volume (in liters) = 500 mL / 1000 mL/L = 0.5 L

Finally, we calculate the molarity of the solution:

molarity (M) = moles / volume

molarity (M) = 0.0366 mol / 0.5 L = 0.0732 M

Therefore, the molarity of the sodium sulfate solution is 0.0732 M.

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How many rings are present in C11H20N2? This compound consumes 2 mol of H2 on catalytic hydrogenation. Enter your answer in the provided box. ____ ring(s)

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There are three rings present in C11H20N2. This can be determined by drawing out the molecule and identifying the three distinct cyclic structures.

The fact that the compound consumes 2 mol of H2 on catalytic hydrogenation is not directly related to the number of rings present and is likely just additional information. To determine how many rings are present in C11H20N2, we need to first find the degree of unsaturation. The compound consumes 2 mol of H2 on catalytic hydrogenation, which means there are 2 units of unsaturation present.

Here's a step-by-step explanation:
1. Calculate the degree of unsaturation using the formula: (2C + 2 + N - H) / 2, where C is the number of carbon atoms, N is the number of nitrogen atoms, and H is the number of hydrogen atoms. In this case, (2 × 11) + 2 + 2 - 20 = 24 / 2 = 2


2. Since the degree of unsaturation is 2, it means there are either 2 double bonds or rings or 1 triple bond or a combination of double bonds and rings present in the molecule.


3. Given that the molecule consumes 2 mol of H2 on catalytic hydrogenation, it suggests that the 2 units of unsaturation come from 2 rings or a combination of a ring and a double bond.

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What is the pH of a buffer solution containing equal volumes of 0.11 M NaCH COO and 0.090 M. CH COOH? PQ-21. K, (CH,COOH) - 1.8x10 (A) 2.42 (B) 4.83 (C) 11.58 (D) 13.91

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The pH of the buffer solution is 4.83.

What is the pH of the given buffer solution?

A buffer solution is formed by the combination of a weak acid and its conjugate base, or a weak base and its conjugate acid. In this case, the buffer solution consists of the weak acid CH3COOH and its conjugate base CH3COO-.

To determine the pH of the buffer solution, we need to consider the equilibrium between the weak acid and its conjugate base. The pH of a buffer solution is determined by the pKa value of the weak acid and the ratio of the concentrations of the weak acid and its conjugate base.

Given the pKa value of CH3COOH as 4.83, which is equal to the negative logarithm of the acid dissociation constant (Ka), the pH of the buffer solution will be equal to the pKa value when the concentrations of the weak acid and its conjugate base are equal.

Therefore, the pH of the buffer solution containing equal volumes of 0.11 M NaCH3COO and 0.090 M CH3COOH is 4.83.

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Identify the body's fuel source as its metabolic pathways shift from feasting to fasting. Glycogen stores Body fat stores Body protein Fuel for the body 2 to 3 hours after eating Fuel for the body after 24 hours of starvation Fuel for the brain 2 to 3 hours after eating Fuel for the brain after 24 hours of starvation O

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The body's fuel source as its metabolic pathways shift from feasting to fasting. Glycogen stores Body fat stores b. Fuel for the body after 24 hours of starvation

Glycogen stores, primarily in the liver and muscles, are the primary fuel source for both the body and the brain. Glycogen is a stored form of glucose that is quickly mobilized for energy when needed. After 24 hours of starvation, glycogen stores are depleted, and the body turns to its fat stores for energy. Fatty acids are released and converted to ketone bodies, which can be used as fuel by most tissues, including the brain.

However, ketone bodies cannot fully meet the brain's energy demands, so the body also breaks down its own proteins to produce glucose, primarily from skeletal muscle. In summary, during the first few hours after eating, glycogen stores provide b. fuel for the body and brain. After 24 hours of starvation, body fat stores become the primary energy source, while the brain relies on both ketone bodies and glucose derived from the breakdown of body proteins.

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Does either or both cis- or trans-[Mn(en)2Br2] have optical isomers? O cis only O trans only O both cis and trans O neither cis nor trans O [Mn(en) Bry] does not exhibit cis-trans isomerism.

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Yes, both cis- and trans-[Mn(en)2Br2] have optical isomers.

Optical isomers are stereoisomers that are non-superimposable mirror images of each other and have different optical activity. Cis- and trans- isomers have different arrangements of ligands around the central metal atom, resulting in different spatial orientations and therefore the potential for optical isomers. The number of optical isomers that a molecule can have depends on the number of chiral centers it possesses. In this case, each [Mn(en)2Br2] complex has two chiral centers (en represents ethylenediamine), which means that each isomer can have a maximum of four optical isomers. Therefore, both cis- and trans-[Mn(en)2Br2] have the potential to exhibit optical isomers.

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calculate the wavelength (in m) of a football (425 g) thrown by an nfl quarterback traveling at 50 mph.

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The wavelength of the football thrown by an NFL quarterback traveling at 50 mph is approximately 6.99 x 10^-35 m.

To calculate the wavelength of the football, we need to first calculate its velocity in meters per second.

We can convert 50 mph to meters per second as follows:

1 mph = 0.44704 m/s (conversion factor)

50 mph = 50 x 0.44704 m/s

50 mph = 22.352 m/s (velocity of the football)

Next, we need to calculate the momentum of the football using the equation:

p = mv , where p is momentum, m is mass, and v is velocity.

We can convert the mass of the football from grams to kilograms as follows:

425 g = 0.425 kg (conversion factor)

So, the momentum of the football is:

p = mv

p = 0.425 kg x 22.352 m/s

p = 9.498 kg*m/s

Finally, we can calculate the wavelength of the football using the equation:

wavelength = h/p

where h is Planck's constant (6.626 x 10^-34 J*s).

So, the wavelength of the football is:

wavelength = h/p

wavelength = (6.626 x 10^-34 Js)/(9.498 kgm/s)

wavelength = 6.99 x 10^-35 m

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The wavelength of the football is λ = 7.17 * 10^-{26} nm .

The wavelength of the football can be calculated using the de Broglie wavelength equation: λ = h/mv, where h is Planck's constant, m is the mass of the object, v is the velocity of the object.
First, we need to convert the mass of the football from grams to kilograms: 425 g = 0.425 kg.
Next, we need to convert the velocity from mph to m/s: 50 mph = 22.35 m/s.
Now we can plug in the values into the equation:
λ = \frac{(6.626 * 10^{-34} J*s) }{ (0.425 kg * 22.35 m/s) }
λ = 7.17 * 10^{-26} nm
Therefore, the correct answer is C) 7.17 * 10^-{26} nm.
It's important to note that this calculation assumes that the football is behaving as a wave, which is not necessarily the case in reality. However, this calculation can still provide a useful estimate of the football's wavelength.

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In alabratory preparation room one may find areagent bottle contain 5L of 12M NaOH describe how to prepar 250ml of 3. 5M NaOH from such solution

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To prepare 250mL of 3.5M NaOH from a 5L bottle of 12M NaOH solution, dilution should be performed by measuring out a specific volume of the 12M solution and adding distilled water to reach the desired concentration.

To calculate the amount of 12M NaOH solution needed to make 250mL of 3.5M NaOH, use the formula: C1V1=C2V2, where C1 is the initial concentration, V1 is the initial volume, C2 is the final concentration, and V2 is the final volume. Plugging in the values, we get: (12M) (V1) = (3.5M) (250mL). Solving for V1, we get 72.92mL of 12M NaOH solution needed.

Transfer this volume to a clean, dry beaker and add distilled water to bring the total volume to 250mL. Mix well to ensure homogeneous distribution of NaOH in the solution.

The resulting solution will be 3.5M NaOH suitable for use in the laboratory. It is important to use gloves and goggles when handling NaOH as it can be corrosive and cause skin and eye irritation.

Additionally, always label the solution indicating its concentration and date of preparation.

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predict the product(s) of the following reaction: cs br2 →cs br2 → (the equation is not necessarily balanced)

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The given reaction is Cs + Br₂ → CsBr₂. The product of this reaction is cesium bromide.

The reaction Cs + Br₂ → CsBr₂ involves the reaction between cesium (Cs) and bromine (Br₂) to form a compound.

In this reaction, cesium, which is an alkali metal, reacts with bromine, which is a halogen, to form cesium bromide (CsBr). The reaction is a combination reaction where the elements combine to form a compound.

This reaction involves the combination of the element cesium (Cs) with molecular bromine (Br₂) to form a compound.

The product of this reaction is cesium bromide (CsBr), but the equation is not balanced. The correct balanced equation would be:

2Cs + Br₂ → 2CsBr

Hence, the final products of the reaction are two moles of cesium bromide (CsBr).

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Answer the following about the diagram below:

Label (A), (B) and (C) in the image.
Is the reaction endothermic or exothermic? Explain your answer.
How would adding a catalyst affect the reaction?

Answers

Answer:

Exothermic reaction

Explanation:

Energy diagrams can help us determine how the energy of reactants changes throughout a reaction.

Energy Diagrams

The purpose of energy diagrams is to show how the energy of reactants and products changes over time.

In the diagram, A is the activated complex. This is the intermediate compound that forms from the reactants before the products are made.

B is the activation energy. This is the amount of energy required for the reaction to occur.

C is the energy of reaction. This is the energy that a reaction absorbs or releases.

Energy of Reaction

Exothermic reactions release energy, and endothermic reactions absorb energy. This means that in exothermic reactions the reactants have higher energy than the products. On the other hand, in endothermic reactions, the reactants are lower energy than the product. In this reaction, the reactants are higher energy, so the reaction is exothermic. This means that energy is released, and the energy of reaction will be negative.

Catalyst

A catalyst is a compound that can be added to a reaction to increase the rate of reaction. Catalysts increase the rate of reaction by decreasing the activation energy. This makes the reaction more likely to occur and speeds up the reaction. Catalysts also decrease the energy of the activated complex.

what is the solubility of pbf2(s) in a 0.450 m pb(no3)2(aq) solution? (ksp for pbf2 = 3.6 x 10-8)

Answers

The solubility of PbF₂(s) in 0.450 M Pb(NO₃)₂(aq) is 4.0 x 10⁻¹⁰ M, determined using the Ksp expression and assuming a negligible contribution of F- from PbF₂.

To determine the solubility of PbF₂(s) in a 0.450 M Pb(NO₃)₂(aq) solution, we need to use the equilibrium expression for the solubility product constant (Ksp) of PbF₂:

PbF₂(s) ⇌ Pb²⁺(aq) + 2F⁻(aq)

The Ksp expression for this reaction is:

Ksp = [Pb²⁺][F⁻]²

We can assume that the initial concentration of F- is negligible compared to the concentration of Pb(NO₃)₂, since Pb(NO₃)₂ is a strong electrolyte and dissociates completely in water:

Pb(NO₃)₂(aq) → Pb₂+(aq) + 2NO₃⁻(aq)

Therefore, we can use the initial concentration of Pb²⁺ from the Pb(NO₃)₂ solution as the concentration of Pb²⁺ in the equilibrium expression. Let's call this concentration x. Then, the equilibrium expression becomes:

Ksp = x [F⁻]²

We need to solve for x, the concentration of Pb²⁺ in equilibrium with PbF₂(s) in the presence of excess F⁻. To do this, we need to know the concentration of F- in the solution. Since PbF₂ is a sparingly soluble salt, we can assume that the amount of F- that comes from the dissociation of PbF₂(s) is negligible compared to the amount of F⁻ that comes from the dissociation of Pb(NO₃)₂(aq). Therefore, the concentration of F- in the solution is equal to twice the initial concentration of Pb(NO₃)₂, or 0.900 M.

Now we can substitute the known values into the equilibrium expression and solve for x:

Ksp = x [F⁻]²

3.6 x 10⁻⁸ = x (0.900 M)²

x = 4.0 x 10⁻¹⁰ M

Therefore, the solubility of PbF₂(s) in a 0.450 M Pb(NO₃)₂(aq) solution is 4.0 x 10⁻¹⁰ M.

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A 2.74 g sample of a substance suspected of being pure gold is warmed to 72.1 °C and submerged into a 15.2 g of water initially at 24.7 °C. The final temperature of the mixture is 26.3 °C. What is the heat capacity of the unknown substance? Could the substance be pure gold?

Answers

The specific heat capacity of pure gold is 0.129 J/(g°C).

The calculated specific heat capacity of the unknown substance is very close to that of pure gold, so it's possible that the substance is pure gold.

To determine the heat capacity of the unknown substance, we'll use the following terms:

mass (m), specific heat capacity (c), and temperature change (ΔT).

For water, we have m_water = 15.2 g, c_water = 4.18 J/(g°C), and ΔT_water = 26.3°C - 24.7°C = 1.6°C.

For the unknown substance, we have m_unknown = 2.74 g, ΔT_unknown = 72.1°C - 26.3°C = 45.8°C, and c_unknown needs to be determined.

Since heat gained by water equals heat lost by the unknown substance, we can set up the equation:

m_water * c_water * ΔT_water = m_unknown * c_unknown * ΔT_unknown.

Plugging in the values:

15.2 g * 4.18 J/(g°C) * 1.6°C = 2.74 g * c_unknown * 45.8°C.

Solving for c_unknown, we get c_unknown ≈ 0.128 J/(g°C).

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