The substrate below is _______ and ______ undergo an Sn2 reaction when treated with a strong nucleophile. a. primary: will b. primary: will not c. secondary: will d. secondary: will not e. tertiary: will f. tertiary: will not

Answers

Answer 1

The substrate below is primary and will undergo an [tex]SN^2[/tex] reaction when treated with a strong nucleophile. The correct answer is b. primary: will.

[tex]SN^2[/tex] reaction: [tex]SN^2[/tex] (substitution nucleophilic bimolecular) reaction is a type of reaction mechanism that can be used to describe specific sorts of nucleophilic substitution reactions, in which a central atom is substituted by a nucleophile.There are two key factors that determine the rate of the [tex]SN^2[/tex] reaction: the strength of the nucleophile and the steric hindrance of the substrate.Strong Nucleophile: A strong nucleophile is one that can effectively donate a pair of electrons to a substrate. Strong nucleophiles are classified as "good" nucleophiles, whereas weak nucleophiles are classified as "bad" nucleophiles. An [tex]SN^2[/tex] reaction is typically performed with a strong nucleophile.Substrate: In the [tex]SN^2[/tex]mechanism, primary and secondary alkyl halides are excellent substrates. This is because the carbon atoms in these compounds are not as hindered as those in tertiary alkyl halides. As a result, nucleophiles can readily approach them to displace the leaving group. The tertiary alkyl halides are not good substrates for [tex]SN^2[/tex] reactions because the steric hindrance is too great. Therefore, the substrate below is primary and will undergo an [tex]SN^2[/tex] reaction when treated with a strong nucleophile.

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Related Questions

why do reversible reactions always result in chemical equilibria

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Reversible reactions always result in chemical equilibria because the rate of the forward reaction is equal to the rate of the reverse reaction at equilibrium.

The chemical equilibrium is the state where there is no net change in the concentrations of the reactants and products. Example: Consider the reversible reaction, N2(g) + 3H2(g) ⇋ 2NH3(g)This is the Haber process, which is an important industrial reaction for producing ammonia from nitrogen and hydrogen gases. In this reaction, nitrogen and hydrogen gases react to form ammonia gas, and ammonia gas can also break down into nitrogen and hydrogen gases. Hence, it is a reversible reaction. When the reaction begins, both the forward and reverse reactions occur at different rates. Initially, the rate of the forward reaction is high, and the rate of the reverse reaction is low, resulting in the accumulation of ammonia gas. As the concentration of ammonia gas increases, the rate of the forward reaction decreases, and the rate of the reverse reaction increases. Eventually, the rates of the forward and reverse reactions become equal, resulting in the formation of a chemical equilibrium. The Haber process reaches equilibrium when the rate of the forward reaction (formation of ammonia) is equal to the rate of the reverse reaction (breakdown of ammonia). At equilibrium, there is no net change in the concentrations of nitrogen, hydrogen, and ammonia gases, and the reaction quotient (Qc) is equal to the equilibrium constant (Kc). Hence, reversible reactions always result in chemical equilibria.

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what family of elements is relatively unreactive and why

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The family of elements that is relatively unreactive is the noble gases, also known as Group 18 or the inert gases.

This group includes helium, neon, argon, krypton, xenon, and radon. Noble gases are unreactive because their outermost electron shells are completely filled with electrons, making them stable and resistant to gaining or losing electrons to form chemical bonds with other atoms. This electronic configuration makes noble gases extremely stable and non-reactive under normal conditions. This also means that noble gases have very low electronegativity and ionization energy, making it difficult for them to form chemical bonds with other elements.

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a saturated a g c l solution was analyzed and found to contain 1.25 x 10-5 m a g ions. use this value to calculate the k s p of a g c l .

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AgCl is an insoluble salt. In water, it ionizes into Ag+ and Cl- ions. The equilibrium constant for the dissociation reaction of AgCl is known as Ksp.

The molar solubility of a sparingly soluble salt is defined as the amount of the salt dissolved in water to form a saturated solution at a given temperature. The Ksp expression can be used to determine the solubility of a sparingly soluble salt like AgCl.

Saturated solution refers to a solution that contains the maximum amount of solute that can be dissolved at a given temperature.

To calculate the Ksp of AgCl in this solution, the molar solubility must first be determined. The number of Ag+ ions in solution is given as 1.25 x 10^-5 M.

According to the balanced equation:

AgCl ↔ Ag+ + Cl-

Ksp = [Ag+][Cl-] = (1.25 x 10^-5 M)(1.25 x 10^-5 M)

Ksp = 1.56 x 10^-10

Since, the value of Ksp is extremely small, it indicates that AgCl is a sparingly soluble salt.

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What are situations that reduce the dissolved oxygen content of water

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Answer:

There are several situations that can reduce the dissolved oxygen (DO) content of water, including:

High temperatures: As the temperature of water increases, its ability to hold dissolved gases like oxygen decreases. This means that warmer water has a lower DO content compared to cooler water.
Eutrophication: Eutrophication occurs when excess nutrients, such as nitrogen and phosphorus, are added to water. This can lead to the growth of algae, which consumes oxygen during the process of respiration, resulting in lower DO levels.
Organic matter decay: Organic matter, such as leaves, plant material, and sewage, can enter bodies of water and begin to decay. During the process of decomposition, bacteria and other microorganisms consume oxygen, which can lead to lower DO levels.
Pollution: Pollutants such as oil, chemicals, and other substances can enter water bodies and reduce the DO content through a variety of mechanisms, including inhibiting the respiration of aquatic organisms or directly consuming oxygen during chemical reactions.
Physical factors: Certain physical factors, such as low flow rates, stagnant water, and high pressure, can all contribute to lower DO levels by limiting the amount of oxygen that can dissolve in the water.
Overall, there are many factors that can reduce the DO content of water, and understanding these factors is important for maintaining the health of aquatic ecosystems and protecting the water quality.

calculate the heat of reaction at constant pressure when 150 ml of 0.5 m hcl is mixed with 250 ml of 0.2 m baoh2

Answers

The heat of reaction at constant pressure when 150 ml of 0.5 M HCl is mixed with 250 ml of 0.2 M [tex]Ba(OH)_2[/tex] is -2.855 kJ/mol.

To calculate the heat of the reaction, first we have to write the balanced chemical equation for the reaction, followed by calculating the number of moles of the reactants involved. Then, we use the stoichiometric coefficients to find the limiting reactant and calculate the heat of the reaction. The balanced chemical equation for the reaction is:

HCl + [tex]Ba(OH)_2[/tex] → Ba[tex]Cl_2[/tex] + 2[tex]H_2O[/tex]

The reaction is an acid-base neutralization reaction. Therefore, we can use the following formula to calculate the heat of reaction:ΔH = q/m

where q is the heat absorbed or evolved during the reaction and m is the mass of the substance.

The heat of reaction at constant pressure can be calculated as follows:

First, calculate the number of moles of HCl and .Number of moles of HCl = Molarity × Volume of HCl = 0.5 × (150/1000) = 0.075 mol

Number of moles of [tex]Ba(OH)_2[/tex]  = Molarity × Volume of [tex]Ba(OH)_2[/tex]  = 0.2 × (250/1000) = 0.05 mol

Since the balanced chemical equation shows that HCl and [tex]Ba(OH)_2[/tex] react in a 1:1 ratio, the limiting reactant is[tex]Ba(OH)_2[/tex] .

Therefore, 0.05 moles of [tex]Ba(OH)_2[/tex]  will react with 0.05 moles of HCl.

The molar enthalpy of neutralization of HCl is -57.1 kJ/mol.

Therefore, the heat of reaction is given by:

ΔH = n × ΔHmol= 0.05 × (-57.1)= -2.855 kJmol-1

The negative sign indicates that the reaction is exothermic.

Therefore, The heat of reaction at constant pressure when 150 ml of 0.5 M HCl is mixed with 250 ml of 0.2 M[tex]Ba(OH)_2[/tex]  is -2.855 kJ/mol.

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How much potassium chloride will dissolve in 50 grams of water at 50°C?

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The amount of potassium chloride that will dissolve in 50 grams of water at 50°C depends on the solubility of the salt at that temperature. The solubility of potassium chloride in water at 50°C is approximately 42 grams per 100 grams of water. Therefore, about 21 grams of potassium chloride will dissolve in 50 grams of water at 50°C.

Km is approximately equal to ___ , and is large when substrate binding is ___ .A. Ks ; strong
B. 1/Ks ; weak
C. Ks ; weak
D. 1/Ks ; strong

Answers

Km is approximately equal to 1/Ks, and is large when substrate binding is weak.

Option (B) 1/Ks; weak is the correct option.

Km is a constant, also known as the Michaelis constant. It is a measure of how tightly an enzyme binds to its substrate. The Michaelis constant (Km) is defined as the concentration of a substrate at which the reaction rate is half of Vmax. Km, unlike Vmax, is not affected by enzyme concentration.

The Michaelis-Menten equation expresses the reaction rate as a function of substrate concentration. It is expressed as:v0 = Vmax[S] / (Km + [S])Here,[S] represents the concentration of the substrate

Vmax is the maximum rate of reaction

Km is the Michaelis constant.

The Michaelis constant (Km) is inversely related to enzyme-substrate affinity. A low Km implies a high enzyme-substrate affinity, whereas a high Km implies a low enzyme-substrate affinity.

Km is approximately equal to 1/Ks, which is the dissociation constant of the enzyme-substrate complex. The dissociation constant for the enzyme-substrate complex is defined as the ratio of the rate constants for the dissociation and association of the complex.

The dissociation constant (Ks) is a measure of the enzyme's affinity for its substrate. The lower the value of Ks, the more tightly the enzyme binds to its substrate, indicating a high affinity between the enzyme and its substrate.

Therefore, the correct answer is option B.

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what is the electrostatic potential energy (in joules) between an electron and a proton that are separated by 53pm

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The electrostatic potential energy between an electron and a proton that are separated by 53pm is 4.27 × 10^-18 J.

Calculation of electrostatic potential energy?

The electrostatic potential energy between two charged particles can be calculated using the

formula U = k*q1*q2/r,

where:

k is the Coulomb constant,

q1 and q2 are the charges of the two particles, and

r is the distance between them.

In this case, we have q1 = -1.60*10^-19 C (charge of the electron), q2 = 1.60*10^-19 C (charge of the proton), and r = 53 pm = 5.3*10^-10 m. Plugging these values into the formula, we get:

U = (8.99*10^9 N m2/C2)*(-1.60*10^-19 C)*(1.60*10^-19 C)/(5.3*10^-10 m)

U = 4.27 × 10^-18 J

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The heat of reaction for a chemical reaction can be calculated by finding the sum of the bond energies of the products and subtracting that from the sum of the bond energies of the reactants: Heat of reaction==Sum of the energy for the bonds broken − Sum of the energy for the bonds formedSum of reactant bond energies − Sum of product bond energies When calculating the sum of the bond energies, each bond in the reaction must be accounted for. For example, CH4 is a reagent with a coefficient of 1 in the reaction. There are four C−H bonds in methane and one methane molecule per reaction, for a total of four C−H bonds on the reactant side. All four bonds must be accounted for when finding the sum of the bond energies for the reactants. Calculate the heat of reaction using the average bond dissociation energies given in the introduction and your answer to Part B for the reaction CH4 + 2O2 → CO2 + 2H2O Express your answer in kilojoules per mole to three significant figures.

Answers

The heat of reaction = (sum of energy released in products) - (sum of energy required in reactants)

= 3454 kJ/mol - 2642 kJ/mol

= 812 kJ/mol

The heat of reaction for a chemical reaction can be calculated by finding the sum of the bond energies of the products and subtracting that from the sum of the bond energies of the reactants:

The heat of reaction = Sum of the energy for the bonds broken − Sum of the energy for the bonds formed

= Sum of reactant bond energies − Sum of product bond energies

When calculating the sum of the bond energies, each bond in the reaction must be accounted for.

[tex]CH_{4} + 2O_{2} → CO_{2} + 2H_{2} O[/tex]

Reactants:

1 mole of CH4 has 4 C-H bonds, each with an average bond dissociation energy of 413 kJ/mol, so the total energy required to break these bonds is 4 x 413 kJ/mol = 1652 kJ/mol.

2 moles of O2 have 2 O=O bonds, each with an average bond dissociation energy of 495 kJ/mol, so the total energy required to break these bonds is 2 x 495 kJ/mol = 990 kJ/mol.

Therefore, the total energy required to break the bonds in the reactants is 1652 kJ/mol + 990 kJ/mol = 2642 kJ/mol.

Products:

1 mole of [tex]CO_{2}[/tex] has 2 C=O bonds, each with an average bond dissociation energy of 799 kJ/mol, so the total energy released by the formation of these bonds is 2 x 799 kJ/mol = 1598 kJ/mol.

2 moles of [tex]H_{2}O[/tex] have 2 O-H bonds and 2 H-O bonds, each with an average bond dissociation energy of 464 kJ/mol, so the total energy released by the formation of these bonds is 2 x (2 x 464 kJ/mol) = 1856 kJ/mol.

Therefore, the total energy released by the formation of the bonds in the products is 1598 kJ/mol + 1856 kJ/mol = 3454 kJ/mol.

Now we can calculate the heat of the reaction by subtracting the energy required to break the bonds in the reactants from the energy released by the formation of the bonds in the products:

The heat of reaction = (sum of energy released in products) - (sum of energy required in reactants)

= 3454 kJ/mol - 2642 kJ/mol

= 812 kJ/mol

Therefore, the heat of reaction for the given reaction is 812 kJ/mol to three significant figures.

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g a 1.00 liter solution contains 0.28 m nitrous acid and 0.36 m potassium nitrite. if 0.090 moles of calcium hydroxide are added to this system, indicate whether the following statements are true or false. (assume that the volume does not change upon the addition of calcium hydroxide.)_______TrueFalse A. The number of moles of HNO2 will decrease._______TrueFalse B. The number of moles of NO2- will remain the same._______TrueFalse C. The equilibrium concentration of H3O+ will increase._______TrueFalse D. The pH will increase._______TrueFalse E. The ratio of [HNO2] / [NO2-] will increase.

Answers

Comparing the calculated value of Ca(OH)2 required with the actual amount of Ca(OH)2 added. Ca(OH)2 added = 0.090 mol/L.∴ Ca(OH)2 added < Ca(OH)2 requires Ca(OH)2 added < Ca(OH)2 required, all of the Ca(OH)2 will be consumed. Therefore, the number of moles of HNO2 will decrease, which makes statement A true. So, statement A is True.

The reaction's balanced equation shows that 2 moles of HNO2 react with 1 mole of Ca(OH)2. This implies that the amount of NO2- in the solution remains the same because the reaction does not include NO2-.Therefore, the number of moles of NO2- will remain the same, which makes statement B false. So, statement B is False.

Using Le Chatelier's principle, we can see that adding Ca(OH)2 to a solution of HNO2 and KNO2 will raise the pH by decreasing the concentration of H+. Hence, the equilibrium concentration of H3O+ will increase. So, statement C is True. Therefore, statement C is True.

The pH of the solution increases as the concentration of OH- increases. Adding Ca(OH)2 to a solution of HNO2 and KNO2 increases the concentration of OH-. Therefore, the pH will increase, making statement D True. Therefore, statement D is True.

The ratio of [HNO2] / [NO2-] will not increase. The number of moles of NO2- remains the same as no NO2- is involved in the reaction with Ca(OH)2. As the number of moles of HNO2 decreases, the ratio [HNO2]/[NO2-] decreases, making statement E false. Therefore, statement E is False.

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Complete the sentence to explain why ethanol is soluble in water but propane is not Drag the terms on the left to the appropriate blanks on the right to complete the sentence. Reset Help Ethanol has a that can form but the hydrogen bonds polar –OH group ionic bonds nonpolar-CH, group with alkane propane does not covalent bonds water other ethanol molecules Submit Request Answer Part B Complete the sentences to explain winy 1-propanol is soluble in water but 1-hexanol is not. Drag the terms on the left to the appropriate blanks on the right to complete the sentences. Reset Help one to three longer shorter Alcohols with carbon atoms are completely soluble in water. In alcohols with carbon chains, the effect is diminished, making them slightly soluble to insoluble one to four the-CH, group the-OH group one to five Submit Request Answer

Answers

Answer:

In general terms, because (1) the carbon-oxygen and hydrogen-oxygen bonds in ethanol are much more polar than any of the bonds in propane; (2) the oxygen atom in ethanol can form hydrogen bonds with the hydrogen atoms in water, but there is not such possibility with propane; and (3) propane contains more carbon atoms per molecule than ethanol.

Explanation:

In general terms, because (1) the carbon-oxygen and hydrogen-oxygen bonds in ethanol are much more polar than any of the bonds in propane; (2) the oxygen atom in ethanol can form hydrogen bonds with the hydrogen atoms in water, but there is not such possibility with propane; and (3) propane contains more carbon atoms per molecule than ethanol.

Consider the reaction between CH2 and O2.a. Calculate the stoichiometric Ox-F mole and mass ratios. Show the necessary steps.b. If the Ox-F mole ratio is twice the stoichiometric value, is the reactant mixture fuel-rich or oxidizer-rich?

Answers

a. The balanced equation for the reaction between CH2 and O2 is:

2CH2 + 3O2 → 2CO2 + 2H2O

For the stoichiometric Ox-F mole ratio, we compare the moles of the two reactants in the balanced equation. The stoichiometric mole ratio of CH2 to O2 is:

2 mol CH2 : 3 mol O2

To calculate the stoichiometric mass ratio, we need to determine the molar masses of each reactant:

M(CH2) = 2 × 12.01 g/mol + 2 × 1.01 g/mol = 26.03 g/molM(O2) = 3 × 16.00 g/mol = 48.00 g/mol

The stoichiometric mass ratio of CH2 to O2 is:

M(CH2) : M(O2) = 26.03 g/mol : 48.00 g/mol = 0.543 : 1b.

If the Ox-F mole ratio is twice the stoichiometric value, then the reactant mixture is oxidizer-rich.

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Identify the most and the least acidic compound in each of the following sets.
Leave the remaining answer in each set blank.
a) difluoroacetic acid: _______ fluoroacetic acid: _______ trifluoroacetic acid: _______
b) cyclohexanol: _______ phenol: _______ benzoic acid: _______
c) oxalic acid: _______ acetic acid: _______formic acid: _______

Answers

a) difluoroacetic acid: most acidic fluoroacetic acid: least acidic  trifluoroacetic acid : middle acidity. b) cyclohexanol: least acidic phenol: middle acidity benzoic acid: most acidic. c) oxalic acid: most acidic acetic acid: middle acidity formic acid: least acidic. Thus, the most acidic and least acidic compound in each set is identified as given above.

In the given question, we are given sets of compounds and we have to identify the most and the least acidic compound in each set. The acidic character of the compound depends upon its tendency to donate hydrogen ion. The compound that easily donates hydrogen ion is acidic in nature, while the compound that does not donate hydrogen ion easily is basic in nature.

The compound that donates hydrogen ion in a moderate way is neutral in nature.a) difluoroacetic acid: most acidic fluoroacetic acid: least acidic trifluoroacetic acid: middle acidity b) cyclohexanol: least acidic phenol: middle aciditybenzoic acid: most acidic.

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How many signals would you expect in the proton-decoupled 13c-nmr spectra of the following compounds?a. 3
b. 2
c. 4
d. 1
e. 5

Answers

The correct option is 1 signal expected in the proton-decoupled 13C-NMR spectra. The correct option is D.

13C-NMR spectra: 13C-NMR spectra provide information regarding the number of carbon environments in a compound. The chemical shift ranges for carbons usually observed are between 0-220 ppm. When a compound is subjected to 13C-NMR spectroscopy, all the carbon atoms absorb radiofrequency radiation at varying frequencies, and this absorption generates signals. Therefore, every unique carbon atom absorbs radiofrequency radiation at a unique frequency, which results in the formation of a signal.The number of signals that can be observed in 13C-NMR spectra is determined by the number of carbon environments in a molecule. Carbon environments refer to distinct types of carbon atoms in a compound. A carbon environment may be determined by the types of atoms that are bonded to the carbon. If a carbon atom is bonded to three different types of atoms, it will generate three different carbon environments, which will appear as three distinct signals in the 13C-NMR spectra.Proton-decoupled 13C-NMR spectra: The most common method for acquiring 13C-NMR spectra is through proton-decoupled 13C-NMR spectra. Proton-decoupled 13C-NMR spectra differ from normal 13C-NMR spectra in that they do not show any splitting of the signals caused by the presence of protons. This is because in proton-decoupled 13C-NMR spectra, the protons are saturated by radiofrequency radiation to eliminate the coupling between the 13C and the 1H. Therefore, the number of signals observed in a proton-decoupled 13C-NMR spectrum corresponds to the number of distinct carbon environments in a molecule.How many signals are expected in the proton-decoupled 13C-NMR spectra of the following compounds? Here, we observe only one signal, implying that there is only one type of carbon atom in the molecule, and hence the answer is (d) 1 signal.

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nonenzymatic e1 reactions can often result in a mixture of more than one alkene product. elimination of 'hx' from the following starting compound, for example, could yield three different possible alkene products, true or false?

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The given statement is true that nonenzymatic E1 reactions can often result in a mixture of more than one alkene product. This is due to the presence of different possible elimination products.

Nonenzymatic E1 reactions: E1 is a chemical reaction mechanism that includes the elimination of a leaving group (such as HX) from an organic molecule to create a double bond or alkene. This is a two-step process in which the first step is the formation of a carbocation intermediate.The nonenzymatic E1 reactions can often result in a mixture of more than one alkene product because the carbocation intermediate that forms can be attacked by nucleophiles in various directions, leading to the formation of different elimination products. The regiochemistry of the reaction is determined by the most stable carbocation intermediate formed from the initial step of the reaction.In this case, elimination of HX from the given starting compound can yield three different possible alkene products due to the presence of three different hydrogen atoms that can eliminate. Hence, the given statement is true.

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the division of the efferent nervous system that controls smooth and cardiac muscles and many glands is the ________ division.

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The division of the efferent nervous system that controls smooth and cardiac muscles and many glands is the autonomic division.

The autonomic portion of the efferent nerve system regulates smooth and cardiac muscles as well as many glands. Involuntary body processes including breathing, digestion, and heart rate that are managed automatically without conscious effort are regulated by the autonomic nervous system (ANS). To keep the body's homeostasis, the sympathetic and parasympathetic divisions of the autonomic nervous system (ANS) cooperate. Although the parasympathetic division encourages "rest and digest" functions like relaxation and digestion, the sympathetic division triggers the "fight or flight" response, preparing the body for intense physical activity. Many medical diseases, including hypertension, arrhythmias, and digestive issues, can be brought on by autonomic nervous system dysfunction.

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A) acetyl-COA; B) ATP; C) CO2; D) NADH C ) 35. Depletion of which of the following molecules from the mitochondria will most directly inhibit the citric acid cycle? A) NAD""; B) NADH; C) CO2; D) ATP lungococcocic driven bychomioma

Answers

Depletion of NAD⁺ from the mitochondria will most directly inhibit the citric acid cycle.

The citric acid cycle or the Krebs cycle or the tricarboxylic acid cycle (TCA cycle) is a metabolic pathway that happens in the mitochondria of eukaryotic cells. This cycle consists of eight chemical reactions in which the acetyl-CoA molecule (a two-carbon molecule) is oxidized to form ATP and other products. During the citric acid cycle, a series of redox and decarboxylation reactions occur.

The enzyme pyruvate dehydrogenase converts pyruvate to acetyl-CoA, which is required to enter the TCA cycle. The process of converting pyruvate to acetyl-CoA requires the participation of coenzyme A, NAD⁺, and the enzyme pyruvate dehydrogenase.

As acetyl-CoA enters the TCA cycle, it combines with oxaloacetate to form citrate. This reaction is catalyzed by the enzyme citrate synthase. During the citric acid cycle, a series of oxidation-reduction reactions take place, and NAD+ and FADH₂ act as electron carriers in this process.

Moreover, depletion of NAD+ from the mitochondria will inhibit the citric acid cycle by inhibiting the conversion of succinate to fumarate, which is catalyzed by succinate dehydrogenase. Succinate dehydrogenase is an enzyme that is involved in both the citric acid cycle and the electron transport chain.


Therefore, if NAD⁺ gets depleted from the mitochondria, then it will inhibit the citric acid cycle.

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Classify each titration curve as representing a strong acid titrated with a strong base, a strong base titrated with a strong acid, a weak acid titrated with a strong base, a weak basetaed with a strong acid, or a polyprotic acid titrated with a strong base. Strong acid/Strong base/ strong base Weak acid strong base Weak base Polyprotic acid strong acid strong acid strong base mL of titrant mL of titrant mL of titrant mL of titrant mL of titrant

Answers

When it comes to titration, a titration curve is the representation of the change in pH with regards to the volume of titrant added.

The point of equivalence is where the stoichiometric amount of titrant reacts completely with the analyte being titrated.

There are several types of titration curves. Below are the classifications of each titration curve:

Strong acid titrated with a strong base. The titration curve for this scenario starts out with a pH of around 3.0, which is the pH of a strong acid. The pH rises until the equivalence point is reached. The pH then drops steeply after the equivalence point.

Strong base titrated with a strong acid. In this titration curve, the pH starts off around  .11, which is the pH of a strong base. The pH drops rapidly until the equivalence point is reached. The pH then rises steeply after the equivalence point.

Weak acid titrated with a strong base. In this titration curve, the pH starts off slightly acidic due to the presence of the weak acid. The pH rises gradually until the equivalence point is reached. The pH then increases steeply after the equivalence point.

Weak base titrated with a strong acid. The pH starts off slightly basic in this titration curve due to the weak base. The pH decreases gradually until the equivalence point is reached. The pH then drops steeply after the equivalence point.

Polyprotic acid titrated with a strong base. In this titration curve, there are more than one equivalence point because the acid is capable of releasing more than one hydrogen ion.

Each equivalence point represents the point at which one mole of H+ is neutralized.

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part 2 out of 2 now consider the stereochemistry in the reaction below: h5mech801 select the answer choice below that correctly picks the appropriate hydrogen to remove in this reaction as well as the correct reasoning for this choice. ha is removed because it is anti-periplanar to the leaving group cl hb is removed because it is syn-periplanar to the leaving group cl it doesn't matter whether ha or hb is removed as both will lead to the specified product. hb is removed because it is anti-periplanar to the leaving group cl ha is removed because it is syn-periplanar to the leaving group cl

Answers

The correct answer for  appropriate hydrogen to remove in this reaction is hb, and it is because it is anti-periplanar to the leaving group Cl.

Explanation: During the reaction, the appropriate hydrogen to remove is hb, and it is because it is anti-periplanar to the leaving group Cl.

When hb is removed, the resulting intermediate has no syn-periplanar hydrogen, and so the reaction stops with a double bond between the two carbons to which the leaving group and the hb were attached.

The term periplanar means that all the groups around a given carbon atom lie in the same plane. For instance, in the given reaction, ha is anti-periplanar to the leaving group Cl.

It means that ha and Cl are on opposite sides of the molecule. On the other hand, hb is anti-periplanar to the leaving group Cl because hb and Clare on the opposite sides of the molecule.

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Como balanceo esta reaccion quimica por tanteo FeCI2+Na0H Fe(0H)3+NaCI

Answers

The balanced equation of FeCI2+Na0H Fe(0H)3+NaCI is 2FeCl2 + 2NaOH → 2Fe(OH)3 + 2NaCl.

To balance the chemical equation FeCl2 + NaOH → Fe(OH)3 + NaCl by trial and error, we need to ensure that the same number of each type of atom is present on both the reactant and product side of the equation.

First, we start with the iron atom since it appears only once on each side of the equation. To balance it, we need to add a coefficient of 2 in front of NaOH to get:

FeCl2 + 2NaOH → Fe(OH)3 + NaCl

Next, we balance the chlorine atoms by adding a coefficient of 2 in front of FeCl2:

2FeCl2 + 2NaOH → Fe(OH)3 + 2NaCl

Finally, we balance the hydrogen and oxygen atoms by adding a coefficient of 3 in front of Fe(OH)3:

2FeCl2 + 2NaOH → 2Fe(OH)3 + 2NaCl

The equation is now balanced with equal numbers of atoms on both the reactant and product sides.

Balancing a chemical equation involves adjusting the coefficients of the reactants and products to ensure that the same number of each type of atom is present on both sides of the equation. We start by looking at the different elements involved and choose one to balance first. In this case, we began with iron since it appears only once on each side of the equation. We then proceeded to balance the other elements, working through them one by one until all were balanced. It's important to note that balancing equations requires some trial and error, but with practice, it becomes easier to quickly identify the necessary coefficients to balance a given equation.

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Which of the following phenomena can only be explained by considering the wave nature of light? Select the correct answer below: - Reflection - Refraction - Interference - None of the above

Answers

Interference can be solely explained by considering the wave nature of light. Therefore, option C is correct.

Interference is a phenomenon that occurs when two or more waves interact with each other. It can be observed in various contexts, including light waves. When two light waves meet, they can either reinforce each other or cancel each other out , depending on their relative phases.

Reflection and refraction can be explained by considering both the particle and wave nature of light. Reflection occurs when light waves bounce off a surface, while refraction refers to the bending of light as it passes from one medium to another.

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2 C2H6 + 7 O2 -> 4 CO2 + 6 H2O
Use the given equation for the following questions:

If 20 moles of fuel are combusted in the above equation, how many moles of O2 are consumed?

If 20 moles of fuel are combusted in the above equation, how many moles of CO2 are produced?

Answers

Answer:

Hope it's correct

Explanation:

2 mol of C2H6 = 7 mol of O2

So 20 mol of C2H6 = ? (20/2)*7 = 70 mol

Your teacher asks you to prepare 500 mL of a 2. 75 molar solution of NaCl for an upcoming laboratory experiment. Write a step-by-step procedure describing how you would carry out this task. (Show process please. )

Answers

To prepare a 500 mL of a 2.75 molar solution of NaCl, dissolve 1.375 moles of NaCl in a small amount of deionized water. Transfer the solution to a 500 mL volumetric flask and add deionized water until it reaches the 500 mL mark. Invert the flask to mix the solution thoroughly. Label the flask with the contents, molarity, and date.

To prepare 500 mL of a 2.75 molar solution of NaCl, you would need to follow these steps,

Calculate the amount of NaCl needed using the formula:

amount of NaCl (in moles) = molarity × volume (in liters)

amount of NaCl = 2.75 mol/L × 0.5 L = 1.375 moles

Weigh out 1.375 moles of NaCl using a balance.

Dissolve the NaCl in a small amount of deionized water, stirring until all the NaCl is dissolved.

Transfer the solution to a 500 mL volumetric flask using a funnel.

Add deionized water to the volumetric flask until it reaches the 500 mL mark on the neck.

Cap the flask and invert it several times to ensure thorough mixing.

Label the flask with the contents, molarity, and date.

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which system provided here, if any, would be best modeled by an ideal solution? if any of the solutions are non-ideal, discuss whether the scatchard-hildebrand approach would be appropriate to model the non-idealities. explain your answer. (i) ethane n-decane (ii) water 1-butanol (iii) benzene toluene

Answers

The systems that would be best modeled by an ideal solution are (i) ethane n-decane, (iii) benzene toluene. If any of the solutions are non-ideal, the Scatchard-Hildebrand approach would be appropriate to model the non-idealities. A solution is said to be ideal if the solution behaves like an ideal gas, which means that there are no intermolecular interactions between the molecules of the components. i.e., the solution will obey Raoult's law.

The systems that would be best modeled by an ideal solution are(i) ethane n-decane(ii) water 1-butanol(iii) benzene toluene. An ideal solution occurs when the components of a mixture form a homogeneous mixture that does not exhibit deviations from Raoult's law. Since the ideal mixture is composed of solvent and solute, it is impossible to completely exclude interactions between the two components.  

It is best suited for non-polar and small polar solutes. In this way, the non-ideality of the solution can be predicted. Therefore, if any of the solutions are non-ideal, the Scatchard-Hildebrand approach would be appropriate to model the non-idealities.

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An electric current of 1.00 ampere is passed through an aqueous solution of Ni(NO3)2. How long will it take to plate out exactly 1.00 mol of nickel metal, assuming 100 percent current efficiency? (1 Faraday = 96,500 coulombs = 6.02 x 1023 electrons). multiple choice: 386,000 sec
193,000 sec
96,500 sec
48,200 sec
24,100 sec

Answers

Answer:

An electric current of 1.00 ampere is passed through an aqueous solution of Ni(NO3)2. The time required to plate out 1.00 mol of nickel metal assuming 100% current efficiency is 193,000 sec.

Explanation:

How to calculate the time required to plate out 1.00 mol of nickel metal in an aqueous solution of Ni(NO3)2?

The current efficiency is 100%, which means that all the current passing through the electrolytic cell is used in the reaction. The following steps are used to determine the time required to plate out 1.00 mol of nickel metal in an aqueous solution of Ni(NO3)2

Step 1: Write the reaction and calculate the charge required to produce 1.00 mol of nickel metal

Ni²⁺(aq) + 2e⁻ → Ni(s). The number of electrons involved in the reaction is 2; thus the charge required to produce 1.00 mol of nickel metal can be calculated by multiplying Faraday's constant by the number of moles of electrons.

Faraday's constant is 96,500 coulombs/1 mol of electrons; thus the charge required to produce 1.00 mol of nickel metal is2 mol of electrons x 1 Faraday/ 1 mol of electrons x 96,500 coulombs/Faraday = 193,000 coulombs

Step 2: Calculate the time required to produce 193,000 coulombs of charge at a current of 1.00 ampere

Time = charge/current = 193,000 coulombs/1.00 ampere = 193,000 sec = 53.6 hr

Thus, the time required to plate out 1.00 mol of nickel metal assuming 100% current efficiency is 193,000 sec. Answer: 193,000 sec.

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Most reactions are carried out in liquid solution or in the gaseous phase because in such situations
A) activation energies are higher.
B) it is easier for reactants to come in contact with each other.
C) kinetic energies of reactants are lower.
D) products are less apt to decompose.

Answers

Most reactions are carried out in liquid solution or in the gaseous phase because it is easier for reactants to come in contact with each other. Thus, option B is correct.


A gaseous phase is a type of phrase that refers to the state of matter in which gas molecules occupy space. They are highly compressible and highly expandable. In a gaseous state, the gas molecules are in motion and may disperse uniformly in a container.

When compared to the solid and liquid phases, the gaseous phase is much lighter. The forces acting between the gas molecules are relatively small, allowing them to disperse and fill the whole available space. It is easier for reactants to come in contact with each other in a liquid solution or in the gaseous phase.

The main reason for this is that the molecules in the gaseous state are highly separated and possess a huge amount of kinetic energy, which allows them to move around quickly. Thus, option B is correct.

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how many milliliters of 0.20 m hcl is required to neutralize 50.0 ml of 0.80 m naoh?

Answers

To neutralize 50.0 mL of 0.80 M NaOH, 200 mL of 0.20 M HCl are needed.

How is neutralization calculated?

When sodium hydroxide (NaOH) and hydrochloric acid (HCl) are mixed, sodium chloride (NaCl) and water (H2O) are the results. The chemical formula for the neutralizing reaction is as follows:NaOH+HClNaCl+H2O.

We must apply the following balanced chemical equation for the neutralization reaction to calculate how much HCl is needed to neutralize 50.0 mL of 0.80 M NaOH:

HCl + NaOH NaCl + H2O

One mole of HCl interacts with one mole of NaOH to form one mole of NaCl and one mole of water, as shown by the equation.

Let's first determine the quantity of NaOH in moles.

Moles of NaOH = volume (in liters) x molarity

Moles of NaOH = 50.0 mL x (1 L/1000 mL) x 0.80 M

Moles of NaOH = 0.040 moles

moles of HCl = volume (in liters) x molarity

0.040 moles = volume (in liters) x 0.20 M

Volume (in liters) = 0.040 moles / 0.20 M

Volume (in liters) = 0.20 L

Finally, we can convert the volume from liters to milliliters:

Volume (in milliliters) = 0.20 L x (1000 mL/1 L)

Volume (in milliliters) = 200 mL

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a flask contains 30.0 ml of 0.10 m hydrochloric and 20.0 ml of nitric acid of unknown concentration. if 50.0 ml of 0.20 m sodium hydroxide was required to neutralize the mixture of acids in the flask, what is the concentration of the nitric acid?

Answers

To find the concentration of the nitric acid in the flask, we must first calculate the amount of acid present in the flask. Since we have 30.0 ml of 0.10 m hydrochloric acid and 20.0 ml of nitric acid, we can calculate the total amount of acid present in the flask by multiplying the volume of each acid by its respective concentration.



30.0 ml x 0.10 m = 3.0 mmol HCl

20.0 ml x C nitric acid = 2.0 mmol nitric acid



The total amount of acid present in the flask is 5.0 mmol. To neutralize this amount of acid, we must add 50.0 ml of 0.20 m sodium hydroxide. Therefore, the concentration of the nitric acid must be 0.20 m.



To sum up, the concentration of the nitric acid in the flask is 0.20 m. The concentration of the nitric acid is 0.15M.

What is the concentration of nitric acid?

A mixture of hydrochloric and nitric acid (HCl and HNO3, respectively) of unknown concentration was neutralized with 0.20M sodium hydroxide (NaOH). The amount of NaOH required for neutralization was determined to be 50.0 mL. In a flask, the acid solution contained 30.0 mL of 0.10 M HCl and 20.0 mL of nitric acid. What is the concentration of nitric acid?

Solution: Total volume of the acid solution is given as = 30.0 mL + 20.0 mL = 50.0 mLTotal number of moles of HCl present in the acid solution can be calculated as: Moles of HCl = Molarity of HCl × Volume of HCl present= 0.10 M × 30.0 mL / 1000 mL/L = 0.0030 molTotal number of moles of NaOH required to neutralize the acid mixture is equal to the number of moles of HCl present in the acid solution: Moles of NaOH = Moles of HCl = 0.0030 Moles of NaOH required to neutralize the nitric acid can be calculated as: Moles of NaOH = Molarity of NaOH × Volume of NaOH required= 0.20 M × 50.0 mL / 1000 mL/L = 0.010 Moles of HNO3 = Moles of NaOH = 0.010 molThe concentration of nitric acid can be calculated as Concentration of HNO3 = Moles of HNO3 / Volume of HNO3 present= 0.010 mol / 20.0 mL / 1000 mL/L= 0.50 M = 0.15 M (Approximately)Therefore, the concentration of nitric acid is 0.15 M.

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write the rate law for each of the following elementary steps and tell whether the reaction unimolecular, bimolecular or termolecular a) o3 cl --> o2 clo b) no2 no2 --> no3 no c) 2no h2 --> h2o2 n2

Answers

a. The rate law for the elementary step [tex]O_{3} + Cl[/tex] --> [tex]O_{2} + ClO[/tex] is k[[tex]O_{3}[/tex]][Cl], indicating that the reaction is bimolecular.

b. The rate law for the elementary step [tex]NO_{2}[/tex] + [tex]NO_{2}[/tex] --> [tex]NO_{3}[/tex] + NO is k[[tex]NO_{2}[/tex]]2, indicating that the reaction is termolecular.

c. The rate law for the elementary step 2NO + [tex]H_{2}[/tex] --> [tex]H_{2}O_{2}[/tex] + [tex]N_{2}[/tex] is k[NO][[tex]H_{2}[/tex]], indicating that the reaction is bimolecular.

The moleculаrity of а reаction refers to the number of reаctаnt pаrticles involved in the reаction. Becаuse there cаn only be discrete numbers of pаrticles, the moleculаrity must tаke аn integer vаlue. Moleculаrity cаn be described аs unimoleculаr, bimoleculаr, or termoleculаr. А unimoleculаr reаction occurs when а molecule reаrrаnges itself to produce one or more products. Аn exаmple of this is rаdioаctive decаy, in which pаrticles аre emitted from аn аtom.

А bimoleculаr reаction involves the collision of two pаrticles. Bimoleculаr reаctions аre common in orgаnic reаctions such аs nucleophilic substitution.  А termoleculаr reаction requires the collision of three pаrticles аt the sаme plаce аnd time. This type of reаction is very uncommon becаuse аll three reаctаnts must simultаneously collide with eаch other, with sufficient energy аnd correct orientаtion, to produce а reаction.

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1. This portion of the titration curve of a strong acid with a strong base is the same as this region for a weak acid titrated with a strong base.the portion after all of the acid has been neutralizedthe buffer regionthe endpoint pHthe portion before the endpoint is reached2. This portion of the titration curve of a strong base with a strong acid is the same as this region for a weak base titrated with a strong acid.the portion after all of the base has been neutralizedthe buffer regionthe portion before the endpoint is reachedthe endpoint pH

Answers

Both strong and weak acid/base titrations before the endpoint have the same buffer area. For both kinds of titrations, the portion remaining after full neutralisation is also the same.

In order to determine the concentration of another solution, a solution with a known concentration is added to it. As the titrant is introduced, the pH of the solution being titrated changes. The section of the titration curve where the pH varies the least when the titrant is introduced is known as the buffer zone. The buffer zone comes first in both strong and mild acid/base titrations, before the equivalence point is reached. The pH changes dramatically when all of the acid or base has been neutralised, and this region of the curve is consistent for both types of titrations. Strong and weak acid/base titrations both generally follow the same pattern, however the pH values vary depending on the strength of the acid/base being titrated.

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