A chemist must dilute 47.2 mL of 150. mM aqueous sodium nitrate solution until the concentration falls to . He'll do this by adding distilled water to the solution until it reaches a certain final volume. Calculate this final volume, in liters. Be sure your answer has the correct number of significant digits.

The volume of Potassium chloride solution is 4.8 L.

Explanation:

Molarity is found by dividing the number of moles of the given substance by its volume in litres, and so the unit of molarity is mol/L.

Here number of moles is given as 3.34 mol

Molarity = 0.7 M

Volume = ? L

Molarity = [tex]$\frac{moles}{Volume (L) }[/tex]

To find the volume we have to rearrange the equation as,

Volume (L) = [tex]$\frac{moles}{molarity}[/tex]

Now, we have to plug in the values as,

Volume (L) = [tex]$\frac{3.34 mol}{0.7 mol/L}[/tex]

                  = 4.77 ≈ 4.8 L

So the volume of Potassium chloride solution is 4.8 L.

Answer:I disagree, the molarity is meant to be higher if all other factors remain constant.

Explanation:

Molarity=amount of substance/volume of the liquid

So,the lesser,the volume, the higher the molarity and vice versa.

The molarity calculation of Na2CO3 could indeed be lower if the precipitate was not adequately dried. Excess moisture adds to the mass, misrepresenting the actual quantity of Na2CO3, which may lead to a lower calculated molarity.

In the field of chemistry, the student's claim about the molarity of Na2CO3 (sodium carbonate) being inaccurately low due to incomplete drying of the precipitate can be valid. As the drying process helps in removing water molecules from the precipitate, any remaining moisture can add extra mass, causing the quantity of pure Na2CO3 to be undervalued. While calculating the molarity, this would imply more volume per mole, hence a lower molarity. This is a common issue in stoichiometry where proper handling and processing of chemical substances significantly affect the outcome of calculations.

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The mass of (NH4)3PO4 is 111.75grams.

HOW TO CALCULATE THE MASS:

mass (g) = moles (mol) × molar mass (g/mol)

{14 + 1(4)}3 + 31 + 16(4)

= (14+4)3 + 31 + 64

= 54 + 31 + 64

= 149g/mol

mass in grams = 149 × 0.75

mass in grams = 111.75g

Therefore, the mass of (NH4)3PO4 is 111.75grams.

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Answer:

Ethylene diamine will bond to the Central metal via a lone pairs of electrons on nitrogen

Explanation:

Complexes are formed by coordinate bond formation. Before a coordinate bond is formed, one of the species must have a lone lair of electrons available for donation into empty orbitals on the central metal.

Ethylene diammine contains nitrogen which has a lone pair of electrons. The two lone pairs on the two nitrogen atoms can bond with the central metal. This makes ethylene diammine a bidentate ligand (two bonding atoms).

Ethylenediamine will bond to a metal ion through both of its nitrogen atoms, forming a chelate complex.

Answer:

A.) ΔG = 107.8 kJ/mol

ΔG rxn is positive implies that the reaction is non spontaneous.

B) P (NO) = 5.0 x 10^-7 atm

C) T > 923.4 K, therefore, the temperature should be 924K in order to make the reaction spontaneous.

Explanation:

N2O(g) + NO2(g) - 3NO(g)

A) ΔG = ΔG products - ΔG reactants

 ΔGf (N2O) = 103.7 kJ/mol

ΔGf (NO2) = 51.3 kJ/mol

ΔGf (NO) = 87.6 kJ/mol

ΔG rxn = 3*87.60 - (103.7 + 51.3)

= 107.8 kJ/mol

ΔG rxn is positive implies that the reaction is non spontaneous.

(B). P (N2O) = P (NO2) = 1 atm

ΔG rxn = ΔG°rxn + RTln(K)

ΔG rxn = ΔG°rxn + RT×ln (P NO)^3 / [P(N2O) × P(NO2)]

When the reaction ceases to be spontaneous, then ΔG rxn = 0.

0 = 107.8 × 10^3 + 8.314 × 298 × ln (P NO)^3 / (1 * 1)

107.8 × 10^3 = - 8.314 × 298 × ln (P NO)^3

ln (P NO)^3 = - 43.51

3 × ln (P NO) = - 43.51

ln (P NO) = -14.50

P (NO) = e^(-14.50)

P (NO) = 5.0 x 10^-7 atm

(C). For a reaction to be spontaneous, ΔG rxn should be negative.

It is known that:

ΔG= ΔH - TΔS

ΔG= ΔH - TΔS < 0

ΔH< TΔS

T < ΔH / ΔD

For the reaction:

ΔH = 3×NO - (N2O + NO2)

= 3×(91.3) - (81.6 + 33.2)

= 159.1 kJ/mol

ΔS = 3×210.8 - (220.0 + 240.1)

= 172.3 J/mol.K

= 0.1723 kJ/mol.K

From the above expression.

T > 159.1 / 0.1723

T > 923.4 K

Therefore, the temperature should be 924K in order to make the reaction spontaneous.

Answer:

1. NaI     Y     AgI

2. K2S     Y   CuS

3. K2CO3      N

Explanation:

1. When we add NaI to the mixture, the reaction that takes place is:

Such a reaction does not happen with Cu⁺².

2. When we add K₂S to the mixture, the reaction that takes place is:

Such a reaction does not happen with Ag⁺.

3. When we add K₂CO₃ to the mixture, the reactions that take place are:

This means both Cu⁺² and Ag⁺ would precipitate, thus they would not be separated.

Answer:

Explanation:

Substance A

Answer:

pH = 11.38

Explanation:

The pH of a solution is given as:

pH = pKw − pOH = 14.00 + log[OH-]

Since the concentration of Ca(OH)2 is 0.0012 M, the [OH−] is twice that, or 0.0024 M, resulting in pOH = 2.62 and pH = 11.38.

Final answer:

The pH of a solution of 0.0012M calcium hydroxide at 25.0°C is 11.38.

Explanation:

The pH of a solution of 0.0012M calcium hydroxide at 25.0°C can be calculated using the concentration of hydroxide ions ([OH-]).

Calcium hydroxide is a strong base that dissociates completely in water to form two hydroxide ions for every formula unit dissolved.

The concentration of the solute is 0.0012M, but because Ca(OH)2 is a strong base, the actual concentration of hydroxide ions ([OH-]) is two times this, or 2 × 0.0012M = 0.0024M.

Since [OH-] = 0.0024M, the pOH can be calculated as pOH = -log([OH-]) = -log(0.0024) = 2.62. The pH can then be calculated using the expression pH = 14 - pOH = 14 - 2.62 = 11.38.

Answer:

Explanation:

The question is not completely clear because some missing parts or grammar (syntax) errors.

Interpreting it, the question is what is the Kelvin temperatue of the air in a tire, when the pressure in the tire has increased to 225 kPa, if the initial conditions of the air inside the tire were 188kPa of pressure and a temperature of 32ºC.

To solve this, you can assume constant volume and use the law of Gay-Lussac for ideal gases:

          [tex]\dfrac{P_1}{T_{1}}=\dfrac{P_2}{T_2}[/tex]

That equation works with absolute temperatures, i.e. Kelvin.

Then solve for T₂, substitute and compute:

        [tex]T_2=P_2\times \dfrac{T_1}{P_{1}}=225kPa\times \dfrac{305.15K}{188kPa}[/tex]

        [tex]T_2=413.90K\approx 414K\longleftarrow answer[/tex]

Answer:

Explanation:

question solved.

The rate law is defined as the rate of a chemical reaction, which is dependent on the concentration of the reactants.

It can be calculated by the formula:

[tex]\text v_o &= \text k [\text A]^x [\text B]^y[/tex]

where,

In the given reaction:

[tex]\begin{aligned}2\;\text{ClO}_2\left(aq \right )+2\text{OH}^-\left(aq \right )\rightarrow\text{ClO}_3^-\left(aq \right )+\text{ClO}_2^-+\text{H}_2\text{O} \end{aligned}[/tex]

Using the rate law formula, we get:

Rate = K [Cl]ⁿ  [OH⁻]ⁿ

0.0248 =  K [0.060]ⁿ  [0.030 ]ⁿ       ........(1)

0.00276 = K  [0.020]ⁿ  [0.030 ]ⁿ   .........(2)

0.00828 = K  [0.020]ⁿ  [0.090]ⁿ     ..........(3)

Dividing (1) equation by (2), we get:

[tex]\begin {aligned} \dfrac {0.0248}{0.00276}&= \dfrac{\text K (0.06)^n (0.03)^n} {\text K (0.02)^n (0.03)^n}\\\\9 &= \dfrac{0.06}{0.02}^n\\\\3 ^2 &= 3 ^ m\\\text m &=2\\\end {aligned}[/tex]

Dividing the equation (2) by (3), we get:

[tex]\begin {aligned} \dfrac {0.00276}{0.00828 }&= \dfrac{\text K (0.02)^n (0.03)^n} {\text K (0.02)^n (0.09)^n}\\\\\dfrac{1}{3} &= \dfrac{0.03}{0.09}^n\\\\ \dfrac{1}{3} ^1 &= \dfrac{1}{3} ^n\\\\\text n &=2\\\end {aligned}[/tex]

Based on the rate law:

a. Rate = K [ClO₂]²⁻ [OH⁻]¹

b. 0.0248 = K [0.06]² [0.03]¹

   K = [tex]\dfrac {0.0248}{(0.06)^2 \times 0.03}[/tex]  = 229.63 m⁻²s⁻¹

c. Rate = K [ClO]₂ [OH⁻]ⁿ

  Rate = 229.62 x (0.2)² (0.05)¹

Therefore, the rate of the reaction is 0.45926 m/sec.

To know more about the rate law of the reaction, refer to the following link:

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Answer: The new pressure will be 1.42 atm

Explanation:

To calculate the final pressure of the system, we use the equation given by Gay-Lussac Law. This law states that pressure of the gas is directly proportional to the temperature of the gas at constant pressure.

Mathematically,

[tex]\frac{P_1}{T_1}=\frac{P_2}{T_2}[/tex]

where,

[tex]P_1\text{ and }T_1[/tex] are the initial pressure and temperature of the gas.

[tex]P_2\text{ and }T_2[/tex] are the final pressure and temperature of the gas.

We are given:

[tex]P_1=1.18atm\\T_1=4^0C=(4+273)K=277K\\P_2=?\\T_2=60^0C=(60+273)K=333K[/tex]

Putting values in above equation, we get:

[tex]\frac{1.18}{277}=\frac{P_2}{333}\\\\P_2=1.42[/tex]

Hence, the new pressure will be 1.42 atm

Answer:

are you asking if it's true or false?

Answer:

no

Explanation:

In iodine tribromide, the I-Br sigma bond is formed through the straight-on overlap of sp3d hybrid atomic orbitals on iodine with p orbitals on bromine.

In iodine tribromide (IBr3), the central iodine (I) atom is surrounded by three bromine (Br) atoms. The I-Br bond that forms is a sigma (σ) bond, which is the result of a straight-on overlap of atomic orbitals. Sigma bonding typically involves the hybridized orbitals. Specifically, in IBr3, the I atom undergoes hybridization and forms two lone pairs and three σ bonds with Br atoms using sp3d hybrid orbitals. So, the hybrid orbital on the iodine atom that makes up the σ bond with a bromine atom is the sp3d hybrid orbital.

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The sigma bond in IBr3 between the central I atom and an outer Br atom is formed by the overlap of a sp3d hybrid orbital from iodine with a p orbital from bromine to accommodate the T-shaped geometry of the molecule.

In iodine tribromide (IBr3), the sigma bond between the central iodine (I) atom and an outer bromine (Br) atom is typically formed by the overlap of a hybrid orbital from the iodine with a p orbital from the bromine. When we consider the valence shell electronic configuration of iodine (5s2 5p5), upon forming IBr3, three of the p orbitals would be used to form sigma bonds with the bromine atoms, and this would likely involve hybridization to accommodate the molecular geometry of IBr3. The exact nature of the hybrid orbitals would depend on the geometry of the molecule, which, due to the presence of only three bond pairs and two lone pairs, adopts a T-shaped geometry, pointing towards sp3d hybridization. However, the exact details of this hybridization can only be confirmed with molecular orbital calculations

Answer:

The correct option is: provide a source of counterions to prevent the build-up of charge at both the cathode to the anode.

Explanation:

A salt bridge is a U-shaped glass tube that is used in a voltaic cell or galvanic cell to connect the oxidation and reduction half-cells and complete the electric circuit.

It allows the ions to pass through it, thus preventing the accumulation of charge on the anode and cathode as the chemical reaction proceeds.

Therefore, the correct option is: provide a source of counterions to prevent the build-up of charge at both the cathode to the anode.

Answer:

See attachment for mechanism.

Explanation:

The Fischer esterification reaction is a nucleophilic substitution in the acyl group of a carboxylic acid, catalyzed by an acid.

1) The protonation of the oxygen of the carbonyl group activates the carboxylic acid...

2) ... against a nucleophilic attack by the alcohol, and produces a tetrahedral intermediate.

3) The transference of a proton from an oxygen atom to another produces a second tetrahedral intermediate and converts the -OH into a good leaving group.

4) The loss of a proton and the expulsion of H₂O regenerates the acid catalyzer and gives an ester as a product.

The Fischer esterification reaction involves reacting a carboxylic acid with an alcohol to form an ester. The reaction is driven to completion by using an excess of alcohol or by distilling off the product.

In the

Fischer esterification reaction

, an alcohol (for example, ethanol) reacts with a carboxylic acid (like acetic acid) to form an ester. The carbonyl carbon of the acid is protonated to make it a better electrophile that can react with the alcohol's oxygen. Here's a simplified version of what happens:

R-C-0-H (a carboxylic acid) + :O: (the oxygen of an alcohol) -> R-C(=O)-O-R' (an ester)

, where R and R' represent any organic groups. The reaction is balanced by distilling off the ester product or using an excess of the alcohol solvent. In a more detailed mechanism, curved arrows would be used to show the movement of electrons, but those can't be represented in text form.

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Answer:

a) Pamela's shortbread cookies has 117,471.3 calories = 117.5 kcal

Elaine's popcorn has 166,515.3 calories = 166.5 kcal

b) Pamela had the smaller net gain of calories after snacking and walking.

Explanation:

- Pamela's snack was a small bag of shortbread cookies composed of 2.6 grams fat, 21 grams carbohydrates, and 2.1 grams protein.

- Elaine had a bag of popcorn composed of 2.9 grams fat, 31 grams carbohydrates, and 3.5 grams protein.

Nutrient | Fuel value (kJ/g):

Carbohydrate | 17

Fat | 38

Protein | 17

Noting that instead of Carbs, Protein was intended to be written.

a) For Pamela

Carbohydrates = (21 g) × (17 KJ/g) = 357 KJ

Fats = (2.6 g) × (38 KJ/g) = 98.8 KJ

Protein = (2.1 g) × (17 KJ/g) = 35.7 KJ

Total fuel value = 357 + 98.8 + 35.7 = 491.5 KJ = 491,500 J

Note that 1 cal = 4.184 J

491,500 J = (491,500/4.184) = 117,471.3 calories = 117.5 kcal

Carbohydrates = (31 g) × (17 KJ/g) = 527 KJ

Fats = (2.9 g) × (38 KJ/g) = 110.2 KJ

Protein = (3.5 g) × (17 KJ/g) = 59.5 KJ

Total fuel value = 527 + 110.2 + 59.5 = 696.7 KJ

Note that 1 cal = 4.184 J

696,700 J = (696,700/4.184) = 166,515.3 calories = 166.5 kcal

b) Suppose the friends took a 15-minute walk after snacking. If Pamela burned 43 kcal and Elaine expended 48 kcal, who had the smaller net gain of calories after snacking and walking?

Pamela gains 117.5 kcal

And loses 43 kcal

Net gain = 117.5 - 43 = 74.5 kcal

Elaine gains 166.5 kcal

And loses 48 kcal

Net gain = 166.5 - 48 = 118.5 kcal

Pamela had the smaller net gain of calories after snacking and walking.

Hope this Helps!!!

Find figure in the attachment

Answer:

Explanation:

solution to the question is found below

The solubility of Cu(OH)2(s) increases in the presence of a strong acid due to the dissolution of the salt and formation of Cu2+ ions and water. The balanced net ionic equation for this process is Cu(OH)2(s) + 2H+(aq) → Cu2+(aq) + 2H2O(l). The equilibrium constant (K) for the reaction can be calculated using the concentrations of the reactants and products at equilibrium.

The balanced net ionic equation to show why the solubility of Cu(OH)2(s) increases in the presence of a strong acid is:

Cu(OH)2(s) + 2H+(aq) → Cu2+(aq) + 2H2O(l)

Cu(OH)2 is a sparingly soluble salt, meaning it has low solubility in water. However, in the presence of a strong acid, the concentration of H+ ions increases, leading to the dissolution of Cu(OH)2 and the formation of Cu2+ ions and water.

The equilibrium constant for this reaction can be calculated by using the concentrations of the reactants and products at equilibrium. The equation for calculating the equilibrium constant (K) is:

K = [Cu2+][H2O2]/[Cu(OH)2][H+]2

Note: The square brackets indicate the concentrations of the species in the solution.

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Answer:

Option 4. loss of electrons, resulting in an increased oxidation number.

Explanation:

Oxidation is a process involving loss of electron(s). When this happens the oxidation number of the atom being oxidised increases. This can be seen when calcium (Ca) reacts with chlorine (Cl2) to form calcium chloride (CaCl2) according to the equation given below:

Ca + Cl2 —> CaCl2

The oxidation number of calcium increases from 0 to +2. This implies that calcium is being oxidised as it loses its electrons. The oxidation number of chlorine decreases from 0 to - 1 as it gains electron.

Now, we can see that the oxidation of calcium i.e lose of electrons increased its oxidation number from 0 to +2.

From the simple illustrations above, we can see clearly that oxidation involves loss of electrons, resulting in an increased oxidation number.

Answer:

Step 1, formation of the iminium ion

2) enol reaction with iminium ion to form beta-amino enone

Explanation:

Please find attached the detailed reaction mechanism and the structure of iminium ion separately

The Mannich reaction is a three-component reaction that forms a ß-amino ketone or aldehyde. It involves protonation, nucleophilic attack, formation of an iminium ion, enol attack, and deprotonation.

The Mannich reaction is a three-component organic reaction involving a ketone, an aldehyde, and an amine under acid-catalyzed conditions to form a ß-amino ketone or ß-amino aldehyde. The mechanism of the reaction can be broken down into several steps:

Given these steps, the structure of iminium ion 2 involves a nitrogen atom double-bonded to a carbon atom derived from the original carbonyl.

Answer:

28.6 mL

Explanation:

Step 1: Write the balanced neutralization reaction between acetic acid and sodium hydroxide

CH₃COOH(aq) + NaOH(aq) = CH₃COONa(aq) + H₂O(l)

Step 2: Calculate the moles of acetic acid

The molar mass of acetic acid is 60.05 g/mol. The moles corresponding to 0.120 g are:

[tex]0.120g \times \frac{1 mol}{60.05g} =2.00 \times 10^{-3} mol[/tex]

Step 3: Calculate the moles of sodium hydroxide

The molar ratio of CH₃COOH to NaOH is 1:1. The reacting moles of NaOH are 2.00 × 10⁻³ mol.

Step 4: Calculate the volume of the 0.0700 M NaOH solution

[tex]2.00 \times 10^{-3} mol \times \frac{1L}{0.0700mol} =0.0286 L = 28.6 mL[/tex]

Answer:

We have to add 286 mL of NaOH

Explanation:

Step 1: Data given

Mass of acetic acid (CH3COOH)= 0.120 grams  

Volume of acetic acid = 250 mL = 0.250 L

Molarity of NaOH = 0.0700 M

Step 2: The balanced equation

CH3COOH + NaOH → CH3COONa + H2O

Step 3: Calculate moles acetic acid

Moles acetic acid = mass / molar mass

Moles acetic acid = 0.120 grams / 60.05 g/mol

Moles acetic acid = 0.00200 moles

Step 4: Calculate molarity acetic acid

Molarity acetic acid = moles / volume

Molarity acetic acid = 0.00200 moles /0.250 L

Molarity acetic acid = 0.008 M

Step 5: Calculate the volume of solution the student will need to add to reach the equivalence point

C1*V1 = C2*V2

⇒with C1 = the molarity of acetic acid = 0.008 M

⇒with V1 = the volume of acetic acid = 0.250 L

⇒with C2 = the molarity of NaOH = 0.0700 M

⇒with V2 = the volume of NaOH neede = TO BE DETERMINED

0.008 M * 0.250 L = 0.0700 M * V2

V2 = (0.008M * 0.250 L) / 0.0700 M

V2 = 0.286 L = 286 mL

We have to add 286 mL of NaOH

Answer:

T= 257.36 k

Explanation:

using the ideal gas law

pv=nRt

first, convert pressure from mmhg to kpa

312 x (101.3\760)= 41.58 kpa

R is constant= 8.31

to get n(number of moles)

n=m\M          (m is mass, M is molar mass)

molar mass of argon is 39.948

n= 2.33\39.948

n=0.0583

substitute;

41.58 x 3 = 0.0583 x 8.31 x T

T= (41.58 x 3)\ (0.0583 x 8.31)

T= 257.36 k

The temperature of the gas under ideal conditions is 257.36K

In order to get the temperature of the gas, we will use the ideal gas equation expressed according to the formula:

[tex]PV = nRT[/tex]

P is the pressure of the gas = 312mmHg = 41.58KPa

V is the volume of the gas = 3.00L

n is the moles of the gas =  0.1165moles

R is boltzmann constant = 8.31

T is the required temperature

Mole = mass/molar mass

Mole = 2.33/40

Mole of argon = 0.05825moles

Substitute the given parameters into the formula

[tex]T=\frac{PV}{nR}\\ T=\frac{41.58 \times 3}{0.05825\times8.31}\\T=257.36K[/tex]

Hence the temperature of the gas under ideal conditions is 257.36K

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Answer:

Bond Order = ½ [# bonded e--# antibonded e-]

C2= ½ [6-2] = 2

C2+= ½ [5-2] = 1.5

C2- = ½ [7-2] = 2.5

Bond Length: C2+> C2> C2-

Bond Energy: C2-> C2> C2+

Explanation:

Bond order is a measurement of the number of electrons involved in bonds between two atoms in a molecule.

How to calculate bond order

1. Draw the Lewis structure.

2. Count the total number of bonds.

3. Count the number of bond groups between individual atoms.

4. Divide the number of bonds between atoms by the total number of bond groups in the molecule.

Bond energy (E) is defined as the amount of energy required to break apart a mole of molecules into its component atoms. It is a measure of the strength of a chemical bond.

The higher the bond order, the shorter the bond length and the greater the bond energy.

The molecular orbital configuration of a chemical specie shows the arrangement of electrons in such a specie into molecular orbitals in accordance with the Aufbau principle.

For C2;

σ1s2 σ*1s2 σ2s2 σ*1s2 π2py2 π2pz2

Bond order = 1/2(8 - 4) = 2

For C2^-;

σ1s2 σ*1s2 σ2s2 σ*1s2 π2py2 π2pz2 σ2px1

Bond order = 1/2(9 - 4) = 2.5

For C2^+;

σ1s2 σ*1s2 σ2s2 σ*1s2 π2py2 π2pz1

Bond order = 1/2(7 - 4) = 1.5

We must recall that the higher the bond order, the shorter the bond length and the greater the bond energy. Hence;

a) In order of increasing bond energy; C2^+ <  C2 < C2^-

b) In order of increasing bond length; C2^- < C2 < C2^+

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Answer:

The equivalent circuit for the electrode while the electrolyte gel is fresh

From the uploaded diagram the part A is the electrolyte, the part part B is the electrolyte gel when is fresh and the part C is the surface of the skin

Now as the electrolyte gel start to dry out the resistance [tex]R_s[/tex] of the gel begins to increase and this starts to limit the flow of current . Now when the gel is then completely dried out  the resistance of the gel [tex]R_s[/tex] then increases to infinity  and this in turn cut off flow of current.

The diagram illustrating this is shown on the second uploaded image

Explanation:

Answer:

A solution that is 0.10 M HCN and 0.10 M LiCN.

Explanation:

A buffer solution is a solution of a weak acid and its conjugate base or a solution of a weak base and its conjugate acid, so the pH of the solution changes in a very little range when an acid or base is added to the solution.

Let's evaluate each statement:

(a) A solution that is 0.10 M LiOH and 0.10 M HNO₃

This is not a buffer solution since the HNO₃ is not the acid conjugate of the LiOH, and also, the LiOH is a strong base and the HNO₃ is a strong acid.

(b) A solution that is 0.10 M HCN and 0.10 M LiCN

This is a buffer solution, with the following reaction:

HCN + H₂O ⇄ CN⁻Li⁺ + H₃O⁺  

The acid HCN is a weak acid and the LiCN is its conjugate base. The fact that the concentrations are equal for both is appropriate for the buffer solution.

(c) A solution that is 0.10 M NaCl and 0.10 M HCl

This is not a buffer solution since the HCl is a strong acid. It dissociates in water to form Cl⁻ and H⁺.

(d) A solution that is 0.10 M Li and 0.10 M HNO₃

This is not a buffer solution since the HNO₃ is not the conjugate base of Li, the HNO₃ is a strong acid that dissociates in water to form H⁺ and NO₃⁻.

(e) A solution that is 0.10 M HCN and 0.10 M LiCl

This is not a buffer solution since the LiCl is not the conjugate base of the acid HCN.

Therefore, the correct option is: A solution that is 0.10 M HCN and 0.10 M LiCN.

I hope it helps you!  

Answer:

A) That resistance in bacteria is produced due to inactivation of ampicillin by the beta lactamase enzyme. This enzyme is expressed by the bla gene found in the plasmid. This enzyme is secreted into the culture medium, thereby inactivating ampicillin. Thanks to this inactivation, the bacteria colonies will be able to develop. After a day of incubation, only those bacteria that took the plasmid that gives them resistance to ampicillin will grow after transformation. After prolonged incubation, two types of colonies can be observed in the culture medium. One large colony with ampicillin resistance, and another small colony, both of which are sensitive to ampicillin.

B) Large colonies are characterized by being resistant to ampicillin. When Ramón isolates the plasmid, he will have the gene that provides resistance to antibiotics. Said plasmid can be used again on those bacteria that are sensitive to ampicillin.

On the other hand, satellite colonies are sensitive to ampicillin. These types of colonies do not have the plasmid that contains the gene that gives ampicillin resistance. It is not possible to isolate any plasmids from these satellite colonies. These satellite bacteria will not be able to grow if they are transferred to a plate containing fresh ampicillin, while large colonies, which possess the plasmid that gives them resistance to ampicillin, will be able to grow on that plate.

Explanation:

Answer:

a. 86.7KJ/mol

b. 2.5 * 10^30

c. 1.42 * 10^55

d. Lightning produces more amount of NO from nitrogen and oxygen thus giving a better crop as NO is essential for crop growth

Explanation:

Complete question is as follows;

Consider the reaction N2(g)+ O2(g) —-> 2NO(g)

Given that ΔG0 for the reaction at 25 degrees celsius is 173.4 kJ/mol a) calculate the standard freeenergy of formation of NO and B) calculate KP ofthe reaction. C) One of the starting substances in smog formationis NO. Assuming that the temperature in a running automobile engine is 1100 degreesC, estimate KP of the above reaction.D) As farmers know, lighting helps to produce a better crop.Why?

solution

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Answer:

Explanation:

see answer below in the attached file.

The carnitine shuttle system is an important system that helps in the fatty acid oxidation.

The functions of the enzymes and compounds of the carnitine shuttle system include the following:

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https://brainly.com/question/14327803

Answer:

8.969×10²⁶ photons

Explanation:

From the question,

Using,

E = hc/λ........................... Equation 1

Where E = Energy of the photon, h = Planck's constant, c = speed of light, λ = wave length of the photon.

Given: h =  6.626×10⁻³⁴ J.s, c = 3×10⁸ m/s, λ = 0.297 m

Substitute into equation 1

E = 6.626×10⁻³⁴(3×10⁸)/0.297

E = 6.69×10⁻²⁵ J.

The energy of the photon in one seconds = 6.69×10⁻²⁵ J/s

If the power of the microwave oven  = 600 J/s

Then,

Number of photons emitted per seconds = 600/(6.69×10⁻²⁵)

Number of photons emitted per seconds = 8.969×10²⁶ photons

The balanced equation is given as,

2Al³⁺ + 3H₂O + Br⁻ → 2 Al + BrO³⁻ + 6H⁺

Explanation:

H₂O + Br⁻ + Al³⁺ → Al + BrO₃⁻ + H⁺

Here the half reactions are:

Al³⁺→ Al     [reduction]

Br⁻ → BrO₃⁻ [oxidation]

Now we have to balance the half reactions as,

Al³⁺ + 3e⁻ → Al

To balance H atoms we have to add water and electrons.

3H₂O + Br⁻→ BrO³⁻ + 6H⁺ + 6e⁻

Now we have to balance the electrons as,

2Al³⁺ + 6e⁻ → 2 Al

3H₂O + Br⁻→ BrO³⁻ + 6H⁺ + 6e⁻

Now we have to add  both the equations as,

2Al³⁺ + 6e⁻ + 3H₂O + Br⁻ → 2 Al + BrO³⁻ + 6H⁺ + 6e⁻

6 electrons on both sides of the equation gets cancelled and so the balanced reaction can be written as,

2Al³⁺ + 3H₂O + Br⁻ → 2 Al + BrO³⁻ + 6H⁺