Select all the solvents from the following list that are both polar and protic.
acetic acid, CH3COOH
ethanol, CH3CH2OH
water, H2O

Alkenes are resistant to oxidation. In the presence of an acid catalyst, however, they are prone to dehydration.

Alkenes have a double bond between two carbon atoms, which means they have fewer hydrogen atoms than their corresponding alkanes. This makes them less susceptible to oxidation reactions, which typically involve the transfer of oxygen or other electronegative atoms to the molecule.

In the presence of an acid catalyst, however, alkenes can undergo an elimination reaction called dehydration. This involves the removal of a molecule of water (H2O) from the alkene, resulting in the formation of a new double bond and a more highly unsaturated product. The acid catalyst helps to remove a proton from one of the carbon atoms adjacent to the double bond, making it more susceptible to attack by a nucleophile (such as water) that can abstract a proton and leave a new double bond behind.

Dehydration is an important reaction for the synthesis of alkenes and other unsaturated compounds in organic chemistry. By controlling the reaction conditions and choice of catalyst, chemists can selectively form specific double bonds and control the stereochemistry of the product.

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The expected product when trans-cinnamic acid is treated with hydrogen and a catalyst, under typical conditions that do not reduce aromatic rings, is cinnamaldehyde.

1. Trans-cinnamic acid has an alkene (double bond) in its structure, along with a carboxylic acid group and an aromatic ring.
2. When treated with hydrogen (H2) and a catalyst (usually palladium on carbon, Pd/C), the alkene will undergo hydrogenation, which means the double bond will be reduced to a single bond.
3. The aromatic ring remains unaffected due to the typical conditions used, which prevent its reduction.
4. Since the carboxylic acid group is also reduced, it will be converted into an aldehyde group.
5. Therefore, the product obtained is cinnamaldehyde, which has a single bond in the side chain and an aldehyde group instead of the carboxylic acid group.
Under the given conditions, hydrogenation of trans-cinnamic acid results in the formation of cinnamaldehyde, with the alkene and carboxylic acid groups being reduced while the aromatic ring remains unaffected.

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Infinitesimal changes associated with reversible processes refer to small, incremental changes that occur in a system at each step of the process, while maintaining equilibrium. Irreversible processes, on the other hand, involve changes that cannot be reversed and lead to a loss of equilibrium.

In reversible processes, changes occur gradually and infinitesimally, meaning that each step is taken slowly to allow the system to continuously adjust and maintain equilibrium. These changes are typically represented using mathematical differentials, such as infinitesimal changes in temperature, pressure, or volume. Reversible processes are idealized and theoretical, serving as a benchmark for understanding system behavior. In contrast, irreversible processes occur spontaneously and rapidly, often leading to a significant loss of equilibrium.

These changes cannot be easily undone, and the system does not return to its initial state. Irreversible processes involve sudden changes, such as an explosion or mixing two substances, and are common in real-world scenarios.

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The strongest reducing agent under standard condition is c)Ti²⁺

The strongest reducing agent under standard conditions is the ion with the most negative reduction potential (E) value. Based on the provided E data table:

E(Ti³⁺, Ti²⁺) = -0.90V
E(Zn²⁺, Zn) = -0.80V
E(Cr³⁺, Cr) = -0.744V
E(Cu²⁺, CU) = -0.42V
E(Fe³⁺, Fe²⁺) = 0.771V
E(Hg²⁺, Hg₂²⁺) = 0.908V

The most negative value is E(Ti³⁺, Ti²⁺) = -0.90V. Therefore, the strongest reducing agent under standard conditions is Ti²⁺. So, your answer is:
A reducing agent is one of the reactants of an oxidation-reduction reaction which reduces the other reactant by giving out electrons to the reactant. If the reducing agent does not pass electrons to other substances in a reaction, then the reduction process cannot occur.
The correct answer is c) Ti²⁺

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To determine the final volume of the balloon when it is fully cooled to the temperature of the refrigerator, we can use the principle of Charles's Law, which states that at constant pressure, the volume of a gas is directly proportional to its temperature.

Let's assume that the pressure remains constant throughout the cooling process.

Using the equation for Charles's Law:

V1 / T1 = V2 / T2

where V1 and T1 are the initial volume and temperature of the balloon, and V2 and T2 are the final volume and temperature.

Given:

V1 = 0.80 L (initial volume of the balloon)

T1 = 42 degrees Celsius (initial temperature of the balloon)

T2 = 4.5 degrees Celsius (final temperature in the refrigerator)

Converting the temperatures to Kelvin by adding 273.15:

T1 = 42 + 273.15 = 315.15 K

T2 = 4.5 + 273.15 = 277.65 K

Substituting these values into the equation, we can solve for V2:

0.80 L / 315.15 K = V2 / 277.65 K

V2 = (0.80 L * 277.65 K) / 315.15 K

V2 ≈ 0.705 L

Therefore, when the balloon is fully cooled to the temperature of the refrigerator, its volume will be approximately 0.705 L.

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The equilibrium constant for the overall reaction is K = K1 * K2.

The equilibrium constant for the overall reaction is the product of the equilibrium constants for the individual reactions, raised to the power of their respective stoichiometric coefficients in the overall reaction. In other words, if the two reactions are A + B ⇌ C (with equilibrium constant K1) and C + D ⇌ E (with equilibrium constant K2), and the overall reaction is A + B + D ⇌ E, then the equilibrium constant for the overall reaction (Keq,overall) is:

Keq,overall = (Keq,1)^1 * (Keq,2)^1/2

where the powers of the equilibrium constants are determined by the stoichiometric coefficients of the reactants and products in each reaction.

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The reaction you provided is: C2H5OH (l) → CH3OCH3 (g)

To determine the enthalpy change (ΔH) for the reaction, we can use the given standard molar enthalpies of formation (∆Hf) for the reactants and products involved.

The equation for the reaction is:

∆Hf(CH3OCH3) = ∆Hf(C2H5OH) - ∆Hf(H2O) - ∆Hf(CO2)

Substituting the given values:

∆Hf(CH3OCH3) = -1460.4 kJ/mol - (-276 kJ/mol -285.83 kJ/mol -393.52 kJ/mol)

Simplifying:

∆Hf(CH3OCH3) = -1460.4 kJ/mol + 955.35 kJ/mol

∆Hf(CH3OCH3) = -505.05 kJ/mol

Therefore, the enthalpy change (∆H) for the reaction C2H5OH (l) → CH3OCH3 (g) is -505.05 kJ/mol.

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Increasing concentrations of greenhouse gases such as methane, nitrous oxide, and carbon dioxide in the atmosphere are changing global climatic patterns.

These gases trap heat in the Earth's atmosphere, creating a greenhouse effect. As their levels rise due to human activities like burning fossil fuels and deforestation, the planet's temperature increases, causing various impacts.

This includes rising global temperatures, melting ice caps and glaciers, more frequent and intense extreme weather events like hurricanes and droughts, disrupted rainfall patterns, and sea-level rise.

These climatic shifts have profound consequences for ecosystems, biodiversity, agriculture, and human livelihoods, making it crucial to mitigate greenhouse gas emissions and adapt to the changing climate.

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The maximum concentration of silver ions (Ag⁺) in the solution is 1.8 x 10⁻⁵ M, which corresponds to option A.

The maximum concentration of silver ions (Ag⁺) in a solution containing 0.025 M of CO₃²⁻ can be calculated using the

Ksp (solubility product constant) of Ag₂CO₃, which is 8.1 x 10⁻¹².

To find the concentration of Ag⁺, we'll use the following balanced equation:

Ag₂CO₃(s) ⇌ 2Ag⁺(aq) + CO₃²⁻(aq)

Given that the Ksp = [Ag⁺]²[CO₃²⁻], we can substitute the values and solve for [Ag⁺]:

8.1 x 10⁻¹² = [Ag⁺]²(0.025 M)

Divide both sides by 0.025:

[Ag⁺]² = (8.1 x 10⁻¹²) / 0.025

Now, take the square root to find the concentration of Ag⁺:

[Ag⁺] = √((8.1 x 10⁻¹²) / 0.025)

[Ag⁺] = 1.8 x 10⁻⁵ M

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The normal boiling point of trans-cinnamaldehyde is 246 °C.

According to the CRC Handbook of Chemistry and Physics, the normal boiling point of trans-cinnamaldehyde is 246 °C at a pressure of 1 atmosphere. The normal boiling point refers to the temperature at which a substance boils at a pressure of 1 atm.

This information is important in various processes such as distillation, where the boiling point of a substance is used to separate it from other components in a mixture.

Steam distillation, for example, is a common technique used to extract essential oils from plants, and knowledge of the boiling point is necessary for the proper operation of the distillation apparatus.

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In sublimation, the purification takes place when the sample goes directly from the solid phase to the vapor phase.

This process is used to purify substances that are difficult to separate using other methods, such as those with high boiling points or those that are highly reactive.

During sublimation, the sample is heated until it reaches its sublimation temperature, at which point it transitions directly from solid to vapor without passing through the liquid phase

The vapor is then collected and cooled, causing it to condense back into a solid form, which is then collected as the purified sample.

Sublimation is commonly used in the pharmaceutical, chemical, and food industries for the production of highly pure and concentrated substances.

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Acaricides are a specific type of pesticide that is used to control and kill mites and ticks.

These types of pesticides are commonly used in agriculture to protect crops from damage caused by mites and ticks. They are also used in the control of ectoparasites on animals, such as cattle, horses, and dogs.

Acaricides work by disrupting the nervous system of mites and ticks, causing paralysis and ultimately death.

It is important to use acaricides carefully and according to label instructions, as overuse or misuse can lead to resistance in mite and tick populations, as well as potential harm to non-target organisms and the environment.

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Electronegativity is the measure of an atom's ability to attract electrons towards itself in a chemical bond. As we move from left to right in the periodic table, the electronegativity increases due to the increase in the nuclear charge and decrease in atomic size. Similarly, as we move down the group, the electronegativity decreases due to the increase in atomic size and shielding effect.

The order of decreasing electronegativity for the given elements is: Oxygen > Sulfur > Calcium > Potassium > Rubidium. Oxygen has the highest electronegativity due to its small atomic size and high nuclear charge. Sulfur, being the next element in the same period, also has a high electronegativity. Calcium has a lower electronegativity than sulfur because it is located in the lower group and has a larger atomic size. Potassium and rubidium, being in the same group, have similar electronegativities but potassium is slightly more electronegative due to its smaller atomic size.

In conclusion, the order of decreasing electronegativity for the given elements is based on their position in the periodic table and is essential to predict the nature of chemical bonding and reactivity of these elements.

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The pH of the cathode compartment solution is 2.10. Cathode compartment solution contains only [tex]Zn_2+[/tex] ions and water

What is pH?

pH is a measure of the acidity or basicity of a solution. It is defined as the negative logarithm of the concentration of hydrogen ions [H+] in a solution. The pH scale ranges from 0 to 14, with a pH of 7 being neutral, a pH less than 7 being acidic, and a pH greater than 7 being basic (or alkaline).

This problem involves a concentration cell consisting of two half-cells, one with a zinc electrode in contact with a solution containing Zn2+ ions at an unknown concentration and another with a zinc electrode in contact with a solution containing [tex]Zn_2+[/tex] ions at a known concentration of 0.100 M. The cell emf at 298 K is measured to be 0.700 V.

Since the two half-cells are identical, the reaction at each electrode must be the same, and the only difference between the two half-cells is the concentration of [tex]Zn_2+[/tex] ions. Therefore, the difference in potential between the two half-cells is proportional to the difference in concentration of [tex]Zn_2+[/tex] ions.

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The relative arrangement of atoms in a molecule is described by its structural formula. The structural formula shows how the atoms are bonded to each other and their spatial arrangement in three dimensions.

The structural formula provides information about the connectivity of atoms and the types of bonds between them, such as covalent, ionic, or hydrogen bonds. In contrast, the empirical formula provides the simplest whole-number ratio of atoms in a molecule. It does not provide information about the actual arrangement of atoms in a molecule, but rather the simplest ratio of atoms that make up the molecule. The molecular formula gives the actual number of atoms of each element in a molecule but does not provide information about the spatial arrangement of atoms. Understanding the relative arrangement of atoms in a molecule is important because it affects the physical and chemical properties of the molecule. For example, the shape of a molecule determines its polarity, which in turn affects its solubility and reactivity. Knowing the structural formula of a molecule can also help predict its behavior in chemical reactions and its interactions with other molecules.

In conclusion, the relative arrangement of atoms in a molecule is described by its structural formula, which shows the connectivity of atoms and their spatial arrangement in three dimensions. The structural formula is important for understanding the physical and chemical properties of a molecule and predicting its behavior in chemical reactions.

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The magnitudes of Kf and Kb depend on the identity of the B) solvent and on temperature.

Kf, the molal freezing point depression constant, and Kb, the molal boiling point elevation constant, are properties that depend on the solvent used in a solution. These constants are unique to each solvent and are affected by temperature. When a solute is dissolved in a solvent, it causes changes in the freezing and boiling points of the solvent, which can be quantified using Kf and Kb, respectively. The greater the Kf or Kb value, the more significant the effect of the solute on the freezing or boiling point of the solvent.

Temperature also plays a vital role in determining the magnitudes of Kf and Kb, as the freezing and boiling points of a solvent change with temperature. As a result, Kf and Kb values are typically provided for a specific temperature. In summary, the magnitudes of Kf and Kb are dependent on the solvent's identity and the temperature at which the measurements are taken. Hence, Option B is correct.

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Fischer esterification is a commonly used method for the synthesis of esters, including the conversion of salicylic acid into aspirin and oil of wintergreen.

The reaction involves the reaction of salicylic acid with an alcohol (in this case, methanol for oil of wintergreen and acetic anhydride for aspirin) in the presence of an acid catalyst (usually sulfuric acid) to form the corresponding ester. Here are the equations for the conversion of salicylic acid into each of these esters using Fischer esterification:

1. Conversion of salicylic acid to oil of wintergreen (methyl salicylate)

Salicylic acid + methanol + sulfuric acid --> Methyl salicylate + water

2. Conversion of salicylic acid to aspirin (acetylsalicylic acid)

Salicylic acid + acetic anhydride + sulfuric acid --> Acetylsalicylic acid + acetic acid

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The reaction between calcium hydroxide (Ca(OH)2) and hydrochloric acid (HCl) is a double replacement reaction, also known as a neutralization reaction.

The reactants combine to form calcium chloride (CaCl2) and water (H2O). The balanced equation for the reaction is:

Ca(OH)2 + 2HCl → CaCl2 + 2H2O

To balance the equation, we first write the formulas for the reactants and products. Then we count the number of atoms of each element on both sides of the equation and adjust the coefficients accordingly. In this case, we need to add a coefficient of 2 in front of HCl and 2 in front of H2O to balance the equation.

The resulting balanced equation shows that 1 mole of Ca(OH)2 reacts with 2 moles of HCl to produce 1 mole of CaCl2 and 2 moles of H2O. This reaction is commonly used in industries such as agriculture and wastewater treatment to neutralize acidic solutions.

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Chiralization is the use of an optically active reagent or catalyst to convert an optically inactive starting material into an optically active product.

So, the correct answer is E.

Chiralization is a process of converting an optically inactive starting material into an optically active product using an optically active reagent or catalyst.

This is achieved through asymmetric induction, which involves the transfer of chirality from the chiral reagent or catalyst to the substrate.

The chiral reagent or catalyst creates a chiral environment that selectively favors the formation of one enantiomer over the other.

Chiralization is an important technique in organic synthesis and is used to produce chiral compounds for pharmaceuticals, agrochemicals, and other industries.

It is different from racemization, which involves the conversion of a chiral compound into a racemic mixture, and optical reduction, which is the reduction of an optically active compound to an optically inactive one.

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"If CO2 is removed, the reaction will shift in the forward direction to replace the lost reactant. As a result, the concentration of CO will increase, while the concentration of H2O will decrease.

Therefore, the correct answer is (a) increase.''

The given reaction is a reversible reaction, and it can be represented as:

r x n: CO2 + H2 ⇌ CO + H2O

If CO2 is removed, the reaction will shift in the forward direction to replace the lost reactant.

This is known as Le Chatelier's principle, which states that a system at equilibrium will respond to any stress by shifting in a direction that partially offsets the effect of the stress.

In this case, the removal of CO2 is a stress that will cause the equilibrium to shift in the forward direction.

As a result, the concentration of CO will increase, while the concentration of H2O will decrease.

Therefore, the correct answer is (a) increase.

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There are four stereoisomers of 3-chloro-2-methylbutane, (CH3)2CHCHClCH3, that exist. The correct option is d.

There are four stereoisomers of 3-chloro-2-methylbutane, (CH3)2CHCHClCH3, that exist. To understand why this is the case, we first need to understand what stereoisomers are.

Stereoisomers are molecules with the same molecular formula and connectivity, but with a different arrangement of atoms in three-dimensional space.
In the case of 3-chloro-2-methylbutane, there are two chiral centers (the carbon atoms with the methyl and chlorine groups attached) which means that each center can have two possible configurations: R or S.
When we consider all possible combinations of R and S for both chiral centers, we get four different stereoisomers: (R,R)-3-chloro-2-methylbutane, (R,S)-3-chloro-2-methylbutane, (S,R)-3-chloro-2-methylbutane, and (S,S)-3-chloro-2-methylbutane.

Each of these stereoisomers has the same molecular formula and connectivity, but a different arrangement of atoms in three-dimensional space.
Therefore, the correct answer is d. 4. There are four stereoisomers of 3-chloro-2-methylbutane, (CH3)2CHCHClCH3, that exist.

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Steam distillation isolates trans-cinnamaldehyde at low temperature preventing decomposition.

Steam distillation is a method that allows the isolation of heat-sensitive compounds, such as trans-cinnamaldehyde, without subjecting them to high temperatures. In this process, steam is generated and passed through the mixture of water and the compound of interest, causing it to vaporize. The vapor containing the compound is then condensed by cooling, resulting in the isolation of the desired compound.

In the case of trans-cinnamaldehyde, steam distillation allows the compound to be isolated by vaporizing it at a temperature below its boiling point. This prevents decomposition of the compound, which can occur at high temperatures. Additionally, the use of steam as a carrier allows for more efficient extraction and separation of the compound from the mixture. Overall, steam distillation is a useful technique for isolating heat-sensitive compounds like trans-cinnamaldehyde.

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The structure of lysine bonded to serine with serine at the C-terminal is known as a peptide bond.

This is because lysine and serine are both amino acids that form a covalent bond through a dehydration reaction between the carboxyl group of serine and the amino group of lysine. The resulting structure is a dipeptide, which is a molecule made up of two amino acids.
The full name of this structure would depend on the specific amino acid sequence it is a part of. However, in general, it could be referred to as a lysine-serine dipeptide or a serine-lysine peptide bond.
Overall, peptide bonds are crucial for the formation of proteins, as they link amino acids together in a specific sequence to create the unique three-dimensional structures of these molecules.

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The term that completes the given statement is "specific rotation". The specific rotation denoted by [α] is a physical constant that characterizes a chiral molecule's ability to rotate plane-polarized light.

The specific rotation is a fundamental property of the molecule that depends on its structure and is unique to each enantiomer. The specific rotation is calculated by measuring the angle of rotation of plane-polarized light as it passes through a solution of the molecule in a tube with a defined length, concentration, and wavelength.

The observed rotation is related to the specific rotation by the equation [α] = α / lc, where α is the observed rotation, l is the length of the tube, and c is the concentration of the solution. The specific rotation is typically reported in units of degrees per millimeter per gram (°/mm/g) or degrees per centimeter per gram (°/cm/g). Specific rotation values are widely used in chemistry and biochemistry for the characterization and identification of chiral compounds, including amino acids, sugars, and pharmaceuticals.

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The law of mass action states that the relative concentration of reactants and products at equilibrium can be expressed in terms of an equilibrium constant . option (d).

The equilibrium constant (Kc) is defined as the product of the concentrations of the products raised to their stoichiometric coefficients divided by the product of the concentrations of the reactants raised to their stoichiometric coefficients, with each concentration term raised to a power equal to its stoichiometric coefficient.

The value of Kc depends only on the temperature of the system and is a constant at a given temperature. It provides a quantitative measure of the position of an equilibrium and can be used to predict the direction in which a reaction will proceed to reach equilibrium under different conditions.

The law of mass action states that the relative concentrations of reactants and products at equilibrium can be expressed in terms of an equilibrium constant, which is a constant at a given temperature and provides a quantitative measure of the position of an equilibrium.

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Answer:

If the ocean is to acidic, people and plants would be negatively affected.

Explanation:

Answer:

if would be dangerous for the animals in water.

Explanation:

The conjugate acid-base pair in the given equation is: HCOOH (aq) and HCOO⁻ (aq)

In the equation, HCOOH (formic acid) donates a proton (H⁺) to H2O (water), forming the hydronium ion (H3O⁺) as the conjugate acid. At the same time, the HCOO⁻ ion (formate ion) is formed, which can be considered the conjugate base of formic acid. The reaction involves the transfer of a proton (H⁺) from the acid (HCOOH) to the base (H2O), forming the conjugate acid (H3O⁺) and conjugate base (HCOO⁻) pair.  Formic acid (HCOOH) donates a proton (H+) to water (H2O) to form the hydronium ion (H3O+), which is the conjugate acid. The resulting formate ion (HCOO-) is the conjugate base, as it can accept a proton to reform formic acid.

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When it comes to assigning stereochemistry to a stereocenter, it is important to understand the concept of priority groups. Each group attached to the stereocenter is assigned a priority based on the atomic number of the atom that it is directly bonded to.

The group with the highest priority is typically designated as the "1" group, followed by the "2" and "3" groups, with the lowest priority group being designated as the "4" group.

In cases where the lowest priority group is located at the front of the structure (on a wedge bond), it can be a bit tricky to assign stereochemistry. However, there is a simple workaround. To assign stereochemistry, you can imagine rotating the entire structure by 180 degrees so that the lowest priority group is now located at the back (on a hashed bond). Once the structure has been rotated, you can assign priorities as usual, with the newly located lowest priority group being designated as the "4" group. From there, you can determine the stereochemistry of the stereocenter using the R/S system as normal.

It is important to note that this workaround only applies when the lowest priority group is located on a wedge bond at the front of the structure. In cases where the lowest priority group is located on a hashed bond at the back of the structure, stereochemistry can be assigned using the R/S system directly without the need for any additional steps.

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Mass of NaCl (MM = 58.5 g/mol)  present in 100 µL of the PBS solution is B. 5.85 µg.

To calculate the mass of NaCl in 100 µL of a 0.1 mM NaCl solution, we need to first convert mM (millimoles per liter) to µM (micromoles per liter) by multiplying by 1000.

0.1 mM NaCl = 100 µM NaCl

Next, we can calculate the number of moles of NaCl in 100 µL of the solution using the formula:

moles = concentration (in µM) x volume (in liters)

volume = 100 µL = 0.0001 L

moles = 100 µM x 0.0001 L = 0.00001 moles

Finally, we can calculate the mass of NaCl using its molar mass:

mass = moles x molar mass

mass = 0.00001 moles x 58.5 g/mol = 0.585 µg

Therefore, the answer is B. 5.85 µg.

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A species which a conjugate base is NO₂⁻(aq).

So, the correct answer is D.

In the given reaction, the acid HNO₂ donates a proton to water to form the hydronium ion (H₃O⁺) and the nitrite ion (NO₂⁻).

A conjugate base is the species that remains after an acid loses a proton.

In this case, HNO₂ donates a proton, so it is the acid and its conjugate base is the NO₂⁻ ion.

Therefore, the answer is option D) NO₂⁻(aq) is the conjugate base in the given reaction.

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