a beaker contains a saturated solution of water and nacl at 25oc. how could the amount of nacl that can be dissolved in the solution be increased?

Answer:

Sure, here is a synthesis of o-bromo-t-butylbenzene from t-butylbenzene:

Bromination

T-butylbenzene is brominated with bromine in the presence of a Lewis acid, such as FeBr3. This reaction produces a mixture of ortho and para bromo-t-butylbenzenes.

Separation

The mixture of ortho and para bromo-t-butylbenzenes can be separated by fractional distillation. The ortho isomer will have a lower boiling point than the para isomer.

Recrystallization

The ortho bromo-t-butylbenzene can be recrystallized from a suitable solvent, such as hexane. This will purify the product and yield o-bromo-t-butylbenzene in high yield.

Here is a more detailed step-by-step procedure:

Bromination

To a flask containing t-butylbenzene (100 mL) and bromine (10 mL) is added FeBr3 (10 g). The mixture is stirred at room temperature for 30 minutes.

Separation

The mixture is cooled in an ice bath and then poured into a separatory funnel. The organic layer is washed with brine (100 mL) and then dried over anhydrous Na2SO4. The solvent is removed under reduced pressure and the product is recrystallized from hexane.

Recrystallization

The product is dissolved in hexane (100 mL) and then cooled in an ice bath. The crystals are collected by filtration and dried under vacuum.

The yield of o-bromo-t-butylbenzene is typically 80-90%.

Explanation:

False. Electrostatic catalysis and covalent bonding interactions are two different types of chemical interactions that occur between atoms and molecules.

Electrostatic catalysis refers to a process in which a catalyst accelerates a chemical reaction by altering the charge distribution around the reactants, without participating in the reaction itself. This process relies on the electrostatic interactions between the catalyst and the reactants, which can help to stabilize the transition state of the reaction and lower the activation energy required for the reaction to proceed.

In contrast, covalent bonding interactions occur when atoms share electrons to form a chemical bond. These interactions are much stronger than electrostatic interactions and involve the sharing of electrons between atoms.

While both types of interactions can play important roles in chemical reactions, electrostatic catalysis does not typically involve covalent bonding interactions. Instead, it relies on the weaker electrostatic interactions between the catalyst and the reactants. These interactions can be enhanced by the geometric and electronic properties of the catalyst, as well as the nature of the reactants and the reaction conditions.

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The freezing point of a solution depends on the concentration of the solute in the solution. To determine the freezing point of a solution prepared by dissolving 6.423 g of ethanol, ch3ch2oh (molecular weight of 46.07 g/mol), we need to know the mass of the solvent and the freezing point depression constant for the solvent.

Assuming that the solvent is water, which has a freezing point depression constant of 1.86 °C/m, and that the mass of the solvent is 100 g, we can calculate the molality of the solution to be 6.423 g/46.07 g/mol = 0.1393 mol. Using the freezing point depression formula, ΔTf = Kf × m, where ΔTf is the freezing point depression, Kf is the freezing point depression constant, and m is the molality of the solution, we can calculate the freezing point depression to be ΔTf = 1.86 °C/m × 0.1393 mol/kg = 0.259 °C. Therefore, the freezing point of the solution is the freezing point of water (0 °C) minus the freezing point depression (0.259 °C), which is -0.259 °C.

The freezing point of a solution prepared by dissolving 6.423 g of ethanol (CH3CH2OH) with a molecular weight of 46.07 g/mol depends on the solvent used. Ethanol is known to lower the freezing point of the solution due to its effect as a solute. To determine the exact freezing point, one needs to know the solvent, its freezing point, and the molality of the solution. Using the colligative properties formula, ΔTf = Kf * molality, and the freezing point depression constant (Kf) of the solvent, the freezing point depression (ΔTf) can be calculated. Add this to the solvent's freezing point to get the solution's freezing point.

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2.04 x 1[tex]0^{22}[/tex] atoms of copper are in an old penny made of pure copper and weighing 2.1

To find out how many atoms of copper are in an old penny made of pure copper and weighing 2.15 grams, follow these steps:

1. Determine the molar mass of copper (Cu): Copper has a molar mass of 63.55 grams/mole.
2. Convert the weight of the penny (2.15 grams) to moles: (2.15 grams) / (63.55 grams/mole) = 0.0338 moles of copper.
3. Use Avogadro's number (6.022 x  1[tex]0^{23}[/tex]  atoms/mole) to find the number of copper atoms: (0.0338 moles) * (6.022 x 1[tex]0^{23}[/tex] atoms/mole) = 2.04 x 1[tex]0^{22}[/tex] atoms.

There are approximately 2.04 x 1[tex]0^{22}[/tex] atoms of copper in an old penny made of pure copper and weighing 2.15 grams.

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"John Adams is a contemporary American composer known for blending elements of minimalism, neo-romanticism, and rock music in his compositions".The statement is true.

John Adams is a prominent American composer who has been active since the 1970s. He is known for his unique style that blends different genres of music, including minimalism, neo-romanticism, and rock music.

Minimalism is a style of music characterized by the use of repetitive patterns and simple harmonic structures. Neo-romanticism, on the other hand, is a style that emerged in the late 19th century as a reaction against the dominance of classical music and the rise of modernism.

It emphasizes emotion, beauty, and expressiveness. Finally, rock music is a popular genre that emerged in the 1950s and is characterized by its use of electric guitars, drums, and bass.

Adams has incorporated these different styles into his compositions to create a unique and innovative sound. He is known for his use of repetitive patterns, driving rhythms, and electronic instruments, which are reminiscent of minimalism and rock music.

At the same time, he also incorporates lush harmonies and expressive melodies, which are characteristic of neo-romanticism. Adams's compositions are often complex and multi-layered, with different elements weaving in and out of each other to create a rich and dynamic musical experience.

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The new volume of the balloon at 17°C and 0.8 atm is approximately 434.5 mL.

The combined gas law put together both Boyle's Law, Charles's Law, and Gay-Lussac's Law.

It is expressed as:

[tex]\frac{P_1V_1}{T_1} = \frac{P_2V_2}{T_2}[/tex]

Given that:

Plug the given values into the combined gas law formula and solve for the final volume.

[tex]\frac{P_1V_1}{T_1} = \frac{P_2V_2}{T_2}\\\\P_1V_1T_2 = P_2V_2T_1\\\\V_2 = \frac{P_1V_1T_2}{P_2T_1} \\\\V_2 = \frac{1.0atm\ *\ 350mL\ * \ 290.15K}{0.8atm\ *\ 292.15K } \\\\V_2 = 434.5\ mL[/tex]

Therefore, the final volume is approximately 434.5 mL.

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A buffer solution is a mixture of a weak acid and its conjugate base or a weak base and its conjugate acid that resists changes in pH when an acid or base is added to it.

In this case, the buffer solution contains 0.100 m NH4Cl and 0.100 m NH3, which is a weak base and its conjugate acid
when a small amount of hydrobromic acid (HBr) is added to the buffer solution, it will react with the weak base (NH3) in the buffer to form NH4+. This will increase the concentration of NH4+ in the solution. The excess H+ ions from HBr will be neutralized by the NH3 in the buffer, which acts as a base. The NH3 will react with the H+ ions to form NH4+, which will maintain the pH of the solution.

Therefore, in this case, the buffer component that neutralizes the added hydrobromic acid is NH3. It acts as a base to neutralize the excess H+ ions and maintain the pH of the solution in summary, the addition of hydrobromic acid to a buffer solution containing NH4Cl and NH3 will cause the NH3 component to neutralize the added acid.
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The number of moles of NaCl contained in 350 ml of a 0.115 M solution can be calculated by using the formula: moles = volume (in liters) x molarity: moles = 0.35 L x 0.115 M = 0.04025 moles. Therefore, the correct answer is option (b) 0.040.

In the given solution, the volume is converted from milliliters to liters by dividing by 1000 since there are 1000 milliliters in a liter. Then, we multiply the converted volume by the molarity of the solution, which represents the number of moles of solute (NaCl) per liter of solution. By multiplying the volume and molarity, we obtain the number of moles of NaCl present in the solution. Rounding the result to the appropriate number of significant figures, we find that there are approximately 0.040 moles of NaCl in 350 ml of the 0.115 M solution, confirming option (b) as the correct answer.

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As carbon bonds with atoms of increasingly higher electronegativities, the polarity of the bond increases.

Electronegativity refers to the ability of an atom to attract electrons towards itself. When carbon bonds with atoms that have higher electronegativities than itself, such as oxygen or nitrogen, the electrons in the bond are more strongly attracted to the higher electronegative atom.

This results in an unequal sharing of electrons between the two atoms, creating a polar covalent bond where one atom has a slightly negative charge (the more electronegative atom) and the other has a slightly positive charge (the carbon atom). Therefore, as the electronegativity of the atom carbon is bonding with increases, the polarity of the bond also increases.

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The statement "gas particles lose energy every time they collide with each other or the container wall" False.

Gas particles do collide with each other and the container wall, but they do not necessarily lose energy with every collision. In an elastic collision, kinetic energy is conserved, meaning that the total kinetic energy of the gas particles remains constant before and after the collision.

Gases are made up of atoms or molecules that are always moving randomly. The walls of the gas particles' container and other gas particles are continually clashing with them. These collisions are elastic, meaning that there is no overall energy loss as a result of them.

When a gas particle collides with another particle or the container walls, none of its energy is wasted. So, the statement is False.

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The potential of a galvanic cell is dependent on the half-cell reactions and the composition of the salt bridge. In this case, the half-cells are identical, but the salt bridge contains different salts, KNO3 in the first cell and NaNO3 in the second cell.

The main function of the salt bridge is to maintain charge neutrality in the half-cells. It does this by allowing the flow of ions between the two half-cells to balance out the charges. KNO3 and NaNO3 are both salts that can facilitate ion flow, but they have different properties that may affect the potential of the cell.

KNO3 is a strong electrolyte, which means it dissociates almost completely in water to form ions. This high degree of dissociation allows for efficient ion flow in the salt bridge and ensures that the half-cell reactions are not impeded. NaNO3, on the other hand, is a weaker electrolyte than KNO3 and may have a lower degree of dissociation. This could result in a higher resistance in the salt bridge and slower ion flow, which may lead to a lower potential difference between the half-cells.

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The solution with the higher boiling point would be the 0.300 m KCl solution.

This is because boiling point elevation is directly proportional to the concentration of solute particles in a solution. Since KCl dissociates into two ions in solution (K+ and Cl-), it will have a greater number of solute particles than glucose, which does not dissociate into ions. Therefore, the KCl solution will have a higher boiling point elevation and a higher boiling point than the glucose solution. It's important to note that the actual boiling point elevation will depend on the molality of the solution and the properties of the solvent.

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The name given to the most intense peak found in a mass spectrum is the base peak. This peak represents the most abundant fragment ion produced from the parent molecule. It is used as a reference peak for the relative abundance of other peaks in the spectrum.

The base peak is typically used as a reference peak in mass spectrometry to determine the relative abundance of other peaks in the spectrum. It represents the most abundant fragment ion produced from the parent molecule and is typically assigned a relative abundance of 100%. Other peaks in the spectrum are then compared to the base peak to determine their relative abundance.

The molecular ion peak, for example, represents the intact parent molecule and is often less intense than the base peak due to the ease of fragmentation. The major fragment peak, on the other hand, represents the most abundant fragment ion produced from the parent molecule, but it may not necessarily be the most intense peak in the spectrum. The radical cation peak is a less common peak that represents a radical cation produced by electron impact ionization.

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The other anions listed (nitrate, phosphate, sulfate, bromide, chloride, and iodide) generally do not produce a gas when reacted with an acid under normal conditions.

When an acid is added to certain anions, they can produce a gas. Among the given options, the anions that can produce a gas are carbonate, nitrate, and sulfate. Carbonate (CO3^2-) reacts with an acid to produce carbon dioxide gas (CO2), water (H2O), and a salt. Nitrate (NO3^-) reacts with an acid to produce nitrogen dioxide gas (NO2), water (H2O), and a salt. Sulfate (SO4^2-) reacts with an acid to produce sulfur dioxide gas (SO2), water (H2O), and a salt. On the other hand, the anions bromide, chloride, and iodide do not produce a gas when reacted with an acid. It's important to note that the gas produced can vary depending on the specific acid used and the concentration of the anion.
When an acid is added to certain anions, some will produce a gas as a result of the reaction. Among the anions listed, the carbonate anion (CO3^2-) will produce a gas when acid is added. In this case, the reaction will generate carbon dioxide (CO2) gas. Here's an example using hydrochloric acid (HCl) and a carbonate salt, such as sodium carbonate (Na2CO3):
Na2CO3 (s) + 2 HCl (aq) → 2 NaCl (aq) + H2O (l) + CO2 (g)
The other anions listed (nitrate, phosphate, sulfate, bromide, chloride, and iodide) generally do not produce a gas when reacted with an acid under normal conditions.

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Carbon disulfide is a compound composed of one carbon atom and two sulfur atoms, connected through double bonds.

The chemical formula for carbon disulfide is CS2. Each sulfur atom in carbon disulfide has one lone pair of electrons. A lone pair of electrons is a pair of valence electrons that are not involved in chemical bonding. Instead, they are localized on an atom and may participate in intermolecular interactions, such as hydrogen bonding. In the case of carbon disulfide, the lone pairs on sulfur atoms can participate in van der Waals forces and dipole-dipole interactions, which contribute to the physical properties of the compound. Therefore, each sulfur atom in carbon disulfide has one lone pair of electrons, which makes a total of two lone pairs in the molecule.

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The balanced chemical equation for the given reaction can be written as:

PbO2 → PbO + O2

This equation indicates that lead(IV) oxide decomposes to yield lead(II) oxide and a colorless gas, which in this case is oxygen. The balanced equation shows that for every one molecule of PbO2 that decomposes, one molecule of PbO and one molecule of O2 are produced. The chemical equation is balanced because the number of atoms of each element is the same on both sides of the equation.

It is important to note that the state of the reactants and products is optional, and may or may not be included in the equation. In this case, the states are not specified, so we can assume that they are in their standard states.

Overall, the balanced chemical equation for the decomposition of lead(IV) oxide helps us to understand the stoichiometry of the reaction and the amounts of reactants and products involved.

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Based on the book Pink and Say by Patricia Polacco, The detail from the story that best explains what the "Pink and Say" book is about is option B: "Then fever must have took me good, ‘cause I could feel a cool, sweet-smelling quilt next to my face.”

The protagonist, Sheldon Russell Curtis, regains consciousness after being shot and abandoned during the American Civil War and notices a pleasant quilt next to him, indicating that he had been tended to by someone.

After being saved by a youthful African American soldier called Pinkus Aylee, or "Pink," he is transported to Pink's mother's residence to recuperate. The narrative revolves around the unexpected bond that evolves between Pink and Sheldon, who both confront the harrowing experiences of warfare and the unfairness of enslavement.

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A solution is 2.25% by weight NaHCO3. 3.38 grams of NaHCO3 are in 150.0 grams of this solution.

To solve this problem, we need to use the formula:

% by weight = (mass of solute / mass of solution) x 100

We can rearrange this formula to solve for the mass of solute:

mass of solute = (% by weight / 100) x mass of solution

Plugging in the values given in the question:

% by weight = 2.25%
mass of solution = 150.0 grams

mass of solute = (2.25 / 100) x 150.0
mass of solute = 3.375 grams

Therefore, the answer is option b. 3.38 grams.

A solute is a substance that is dissolved in a solvent to form a homogeneous solution. The solute can be a solid, liquid or gas, and it is typically present in smaller quantities than the solvent. When a solute is added to a solvent, it distributes evenly throughout the solvent due to the random motion of molecules, creating a uniform mixture.

The concentration of the solute in the solution can vary, depending on the amount of solute added and the volume of the solvent. Solute-solvent interactions play a critical role in many physical and chemical processes, such as solubility, osmosis, and chemical reactions.

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Answer: the statement issues are addressed by the people working together is true about activation.

Explanation:

The balanced equation for the combustion of hexene (C6H12) with oxygen gas (O2) to form carbon dioxide gas (CO2) and water vapor (H2O) is:

C6H12(l) + 9O2(g) -> 6CO2(g) + 6H2O(g)

The reaction occurs in the presence of oxygen gas, which is needed for combustion to take place. Hexene is a hydrocarbon, and when it reacts with oxygen, it undergoes combustion to produce carbon dioxide and water vapor.

The balanced equation shows that one molecule of hexene reacts with nine molecules of oxygen to produce six molecules each of carbon dioxide and water vapor.

This is an exothermic reaction, as heat is released during the combustion process. The conditions of the reactants and products are indicated in parentheses, with hexene and water vapor being in liquid state (l) while oxygen and carbon dioxide are gases (g).

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Apparent magnitude is a measure of the brightness of a celestial object as it appears from Earth, while absolute magnitude is a measure of its intrinsic brightness.

Apparent magnitude is a measure of how bright a celestial object appears to an observer on Earth. It is a logarithmic scale, with lower values indicating brighter objects.

The apparent magnitude of an object is affected by factors such as its distance from Earth, as well as any intervening material that might absorb or scatter its light.

Absolute magnitude, on the other hand, is a measure of the intrinsic brightness of a celestial object, meaning how bright it would appear if it were located at a distance of 10 parsecs (32.6 light-years) from Earth.

It is also a logarithmic scale, with lower values indicating brighter objects. Absolute magnitude is determined by the object's luminosity, or the total amount of energy it emits per unit time.

By comparing the apparent magnitude and absolute magnitude of a celestial object, astronomers can determine its distance from Earth. This is done using a formula known as the distance modulus, which relates the object's apparent magnitude, absolute magnitude, and distance.

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The free-energy change for the reaction 2SO2(g)+O2(g) ⇌ 2SO3(g) at 298 K is -140.976 kJ/mol

To calculate the free-energy change for this reaction at 298 K, we can use the equation:

ΔG = ΔH - TΔS

where ΔH is the enthalpy change, ΔS is the entropy change, and T is the temperature in Kelvin.

First, we need to know the values of ΔH and ΔS for this reaction. According to standard thermodynamic data, ΔH for this reaction is -197 kJ/mol, and ΔS is -188 J/(mol*K).

Plugging these values into the equation above, we get:

ΔG = (-197 kJ/mol) - (298 K)(-188 J/(mol*K)) / 1000 J/kJ
ΔG = -197 kJ/mol + 56.024 kJ/mol
ΔG = -140.976 kJ/mol

Therefore, the free-energy change for the reaction 2SO2(g)+O2(g) ⇌ 2SO3(g) at 298 K is -140.976 kJ/mol.

Enthalpy change, often denoted as ΔH, is the amount of heat absorbed or released by a chemical or physical process at constant pressure. It is a thermodynamic property that describes the difference between the enthalpy of the reactants and the enthalpy of the products.

The enthalpy change can be calculated using the following equation:

ΔH = H(products) - H(reactants)

where ΔH is the enthalpy change, H(products) is the enthalpy of the products, and H(reactants) is the enthalpy of the reactants.

If the enthalpy change is negative, it means that heat is released by the system to the surroundings, and the process is exothermic. If the enthalpy change is positive, it means that heat is absorbed by the system from the surroundings, and the process is endothermic.

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The electrolysis of the pure bismuth. The long it take to the produce of the 7.50 g by the electrolysis of the solution with the current of the 17.5 A is 554 s.

The mass of the pure bismuth = 7.50 g

The current of the solution = 17.7 A

The mole number of electrons is :

Moles of electrons = ( 3 × 7.50 ) / 209

Moles of electrons = 0.15 mol

The charge is expressed as :

Charge = 0.15 mol / 96485 C /mol

Charge = 1.48 × 10⁴ C.

The time that is required to the plate out is as :

Time = (1.48 × 10⁴ C ) ( 1s / 17.7 C)

Time = 554 s

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If the mass of one naturally occurring isotope of element antimony is 120.904 amu, then the mass of the other naturally occurring isotope of antimony is 123.905 amu.

We can use the fact that the sum of the abundance of the two naturally occurring isotopes of antimony is equal to 100%. Since we know that one isotope has an abundance of 57.3%, the abundance of the other isotope is 100% - 57.3% = 42.7%. We can set up an equation using the isotopic masses and the abundances of the two isotopes to solve for the mass of the other isotope:
(0.573)(120.904 amu) + (0.427)(x) = 121.757 amu
Solving for x, we get:
x = (121.757 amu - 0.573(120.904 amu)) / 0.427
x = 123.905 amu
Therefore, the mass of the other naturally occurring isotope of antimony is 123.905 amu.

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Because a rise in temperature upsets the equilibrium state of evaporation and condensation, more and more vapor forms when a liquid-vapor system experiences an increase in temperature.

As the rate of condensation increases and the rate of evaporation decreases with a drop in temperature, more water is created

The gas sample that has the greatest number of molecules is C) CH4 (methane).

This is because methane has a molecular formula of CH4, meaning it is composed of one carbon atom and four hydrogen atoms. The other gases listed, He (helium), Cl2 (chlorine), and NH3 (ammonia), all have fewer atoms per molecule than methane. However, it is important to note that if the amount of each gas sample is not specified, then it is possible that two different gas samples could have the same number of molecules despite having different molecular formulas. Therefore, without further information, we cannot definitively say that all gases are the same.
This is based on Avogadro's Law, which states that equal volumes of any gas at the same temperature and pressure contain the same number of molecules. Therefore, regardless of the type of gas (He, Cl2, CH4, or NH3), the number of molecules in each gas sample will be the same, assuming they have equal volumes and are under the same conditions of temperature and pressure.

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If a 265 ml bottle of distilled vinegar contains 31.5 ml of acetic acid, then the volume percent of acetic acid in the solution is 11.89% (v/v).

To find the volume percent, we need to divide the volume of acetic acid by the total volume of the solution and then multiply by 100.

So, the volume percent (v/v) of acetic acid in the solution is (31.5/265) x 100 = 11.89%. This means that 11.89% of the total volume of the solution is acetic acid.  

It is important to note that vinegar solutions can vary in their strength depending on their intended use, but a standard vinegar solution for cooking and cleaning purposes usually has a volume percent of acetic acid between 4% and 7%.

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Out of the given options, the chemical species with the highest boiling point is c2 h6, which is ethane.

Ethane is a hydrocarbon with a linear structure and has intermolecular London dispersion forces, which increase with the increase in the number of electrons. As ethane has more electrons than the other options, it has a higher boiling point. Neon (Ne) is a noble gas and exists as single atoms, which have weak interatomic forces and thus have a low boiling point. Li2 O and N2 are covalent compounds with relatively low molar masses and weak intermolecular forces, resulting in lower boiling points. NF3 is a polar molecule with dipole-dipole interactions, but it has a lower boiling point than ethane due to its smaller molar mass. In summary, the boiling point of a compound depends on various factors such as molecular weight, intermolecular forces, and polarity.

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In the design of a new baby diaper, the manufacturer uses two polymers. The polymer that is best suited to the outside of the diaper is polymer I and to the inside is polymer II

Polymers are large molecules made by bonding (chemically linking) a series of building blocks or smaller units called monomers. The word polymer comes from the Greek words for “many parts.”

Polymers don’t have a definite length. They usually don’t form crystals, either. Finally, they usually don’t have a definite melting point

Monomers used to create polymer I is a dicarboxylic acid and for polymer II is an alkene.

They undergo addition polymerization.

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