0.10 m sample of a weak base was placed in water. the ph of the solution was 11.0, when tested. what is the value of the kb for the base?

Answers

Answer 1

The value of the kb for the base is 1.0 x 10⁻⁵. The concentration of hydroxide ions in a solution may be calculated using the pH of the solution. The concentration of hydroxide ions in the case of a weak base is linked to the equilibrium constant, Kb.

The Kb expression for a weak base is given as:

Kb = [OH-][HB+]/[B]

Where [OH-] denotes the concentration of hydroxide ions, [HB+] the concentration of the weak base's conjugate acid, and [B] the concentration of the weak base.

The pH of the solution in this case is reported as 11.0. Because pH + pOH = 14, we may calculate that the solution's pOH is 3.0. We can compute the concentration of hydroxide ions in the solution using the link between pOH and [OH-].

The concentration of the weak base must then be determined. We may infer that the concentration of the weak base is 0.10 M based on the sample size of 0.10 m.

Now we can use the Kb expression to solve for Kb:

Kb = [OH-][HB+]/[B]

Kb = (10⁻³)² / (0.10 - 10⁻³)

Kb = 1.0 x 10⁻⁵

Therefore, the value of Kb for the weak base is 1.0 x 10⁻⁵

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Related Questions

The value of Ksp for Cd(OH)2 is 2.5 * 10^-14.
1.What is the molar solubility of Cd(OH)2?
2. The solubility of Cd(OH)2 can be increased through formation of the complex ion (CdBr4)2- (Kf = 5 * 10^3). If solid Cd(OH)2 is added to a NaBr solution, what would the initial concentration of NaBr need to be in order to increase the molar solubility of Cd(OH)2 to1.0 * 10^-3 moles per liter?

Answers

The molar solubility of Cd(OH)2 is 1.1 * 10^-5 M if the value of Ksp for Cd(OH)2 is 2.5 * 10^-14. and the initial concentration of NaBr need to be in order to increase the molar solubility of Cd(OH)2 to1.0 * 10^-3 moles per liter is 17.8 M.

1. To find the molar solubility of Cd(OH)2, we need to use the Ksp expression:

Ksp = [Cd2+][OH-]^2

Since Cd(OH)2 dissociates into one Cd2+ ion and two OH- ions, we can substitute [OH-]^2 with (2s)^2 = 4s^2, where s is the molar solubility of Cd(OH)2. Thus:

Ksp = [Cd2+][OH-]^2 = (s)(4s^2)^2 = 16s^5

We know that Ksp = 2.5 * 10^-14, so we can solve for s:

2.5 * 10^-14 = 16s^5
s = 1.1 * 10^-5 M

Therefore, the molar solubility of Cd(OH)2 is 1.1 * 10^-5 M.

2. The solubility of Cd(OH)2 can be increased through the formation of the complex ion (CdBr4)2- (Kf = 5 * 10^3). When solid Cd(OH)2 is added to a NaBr solution, some of the Cd2+ ions will react with Br- ions to form the complex ion. The equilibrium reaction is:

Cd2+ + 4Br- ⇌ (CdBr4)2-

The equilibrium constant for this reaction is Kf = 5 * 10^3. We can use this information to calculate the initial concentration of NaBr needed to increase the molar solubility of Cd(OH)2 to 1.0 * 10^-3 M.

First, we need to write the expression for the formation constant of the complex ion:

Kf = [CdBr4]2- / [Cd2+][Br-]^4

At equilibrium, we can assume that the concentration of Cd2+ is equal to the molar solubility of Cd(OH)2, which is 1.0 * 10^-3 M. We also know that the concentration of Br- ions is equal to the initial concentration of NaBr, which we'll call x. Thus:

Kf = [(CdBr4)2-] / (1.0 * 10^-3 M)(x)^4

We can rearrange this equation to solve for x:

x = (Kf / (1.0 * 10^-3 M))^(1/4)

x = (5 * 10^3 / (1.0 * 10^-3 M))^(1/4)

x = 17.8 M

Therefore, the initial concentration of NaBr needed to increase the molar solubility of Cd(OH)2 to 1.0 * 10^-3 M is 17.8 M. However, this concentration is very high and may not be practical or safe to use. It's also important to note that adding too much NaBr can lead to the precipitation of CdBr2, which would decrease the solubility of Cd(OH)2.

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For a process where ΔH⁰sys < 0 and ΔS⁰sys> 0, when is the sign on ΔG⁰sys < 0?
a. ΔG⁰sys is never less than zero
b. ΔG⁰sys < 0 for all temperatures
c. ΔG⁰sys < 0 for low temperatures
d. ΔG⁰sys < 0 for high temperatures

Answers

For a process where ΔH⁰sys < 0 and ΔS⁰sys > 0, the sign on ΔG⁰sys < 0 when:b. ΔG⁰sys < 0 for all temperatures.

This is because ΔG⁰sys = ΔH⁰sys - TΔS⁰sys,  and with a negative ΔH⁰sys and positive ΔS⁰sys, the resulting ΔG⁰sys will always be negative, regardless of the temperature (T).For a process where ΔH⁰sys < 0 and ΔS⁰sys > 0, the sign on ΔG⁰sys < 0 when:b. ΔG⁰sys < 0 for all temperatures.

ΔG stands for gibbs free energy, ΔH stands for enthalpy and ΔS stands for entropy. Gibbs free energy is used to measure the maximum amount of work done in a thermodynamic system as per the temperature and pressure conditions. Enthalpy is defined as a measurement of amount of energy the thermodynamic system holds and entropy defines the degree of randomness of the thermodynamic system.

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Explain how the frequency and the wavelength of a wave in the electromagnetic spectrum change as a result of increasing energy

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Answer: On increasing energy, frequency of the wave increases, whereas the wavelength decreases.

Explanation: According to Wave theory and Plank-Einstein relation, Energy of a wave is directly proportional to its frequency, with constant factor as plank`s constant (h=6.62607015 × 10-34 m2 kg / s). That is, (Energy)=(h)x(frequency).

And as the frequency changes, wavelength also changes as they are inversely proportional. We can also observe these changes by looking at the electromagnetic spectrum (attached in the answer).

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Calculate the molarity of each solution:
1.) 3.25 mol of LiCl in 2.78 L solution
2.) 28.33 g C6H12O6 in 1.28 L of solution
3.) 32.4 mg NaCl in 122.4 mL of solution
4.) 0.38 mol of LiNO3 in 6.14 L of solution
5.) 72.8 g C2H6O in 2.34 L of solution
6.) 12.87 mg KI in 112.4 mL of solution

Answers

The molarity of each solution is:
1) 1.17 M LiCl
2) 0.16 M C₆H₁₂O₆
3) 0.0027 M NaCl
4) 0.062 M LiNO₃
5) 2.20 M C₂H₆O
6) 0.0011 M KI

To calculate the molarity of each solution, follow these steps:

1) Convert mass to moles (if needed): use the molar mass of the compound.
2) Determine the volume in liters.
3) Use the formula: Molarity (M) = moles of solute / liters of solution.

For example, for the first solution:
1) Moles of LiCl = 3.25 mol (already given)
2) Volume = 2.78 L (already given)
3) Molarity = 3.25 mol / 2.78 L = 1.17 M LiCl

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For a certain acid pka = 6.58. Calculate the ph at which an aqueous solution of this acid would be 0.27 issociated.

Answers

The pH of the solution is 3.31

If the aqueous solution of the acid is 0.27 associated, then the degree of ionization (α) is 0.27. We can use the following equation to calculate the pH:

pH = pKa + log([A-]/[HA])

where pKa is the acid dissociation constant, [A-] is the concentration of the conjugate base, and [HA] is the concentration of the acid.

Since the degree of ionization (α) is equal to [A-]/[HA], we can substitute α for [A-]/[HA] in the above equation:

pH = pKa + log(α/(1-α))

Plugging in the given pKa value of 6.58 and the degree of ionization of 0.27, we get:

pH = 6.58 + log(0.27/(1-0.27)) ≈ 3.31

Therefore, the pH at which an aqueous solution of this acid would be 0.27 associated is approximately 3.31. This indicates that the solution is acidic since the pH is less than 7.

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which amino acids in the active site of beta galactosidase

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The active site of beta-galactosidase contains key amino acids that play a crucial role in its catalytic activity. These amino acids include Glu-461, Tyr-503, and Glu-537. They work together to facilitate the hydrolysis of lactose into glucose and galactose.

The active site of beta galactosidase contains several important amino acids, including glutamic acid, histidine, and aspartic acid. These amino acids play key roles in catalyzing the hydrolysis of lactose, which is the primary function of beta galactosidase. Other amino acids present in the active site may also contribute to the enzyme's overall function and specificity, such as arginine, lysine, and tryptophan. The exact arrangement and function of these amino acids may vary depending on the specific species of beta galactosidase and the surrounding environment.

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calculate the ph of an aqueous solution at 25⁰c that is (a) 1.02 M in HI(b) 0.035 M in HClO4

Answers

The pH of a 1.02 M solution of HI at 25⁰C is approximately 5.94.

the pH of a 0.035 M solution of HClO4 at 25⁰C is approximately 4.23.

(a) HI is a strong acid, meaning it completely dissociates in water. The dissociation of HI can be written as follows:

HI + H2O → H3O+ + I-

The equilibrium constant expression for this reaction is:

Ka = [H3O+][I-]/[HI]

Since HI is a strong acid, we can assume that [HI] ≈ [H3O+]. Thus, we can simplify the expression to:

Ka ≈ [H3O+]^2/[HI]

We can solve for [H3O+]:

[H3O+] = √(Ka*[HI])

The Ka value for HI is approximately 1.3 x 10^-10 at 25°C. Therefore:

[H3O+] = √(1.3 x 10^-10 * 1.02) = 1.16 x 10^-6 M

Taking the negative logarithm of this concentration gives us the pH of the solution:

pH = -log([H3O+]) = -log(1.16 x 10^-6) = 5.94

Therefore, the pH of a 1.02 M solution of HI at 25⁰C is approximately 5.94.

(b) HClO4 is also a strong acid, so we can assume that it completely dissociates in water. The dissociation of HClO4 can be written as:

HClO4 + H2O → H3O+ + ClO4-

The equilibrium constant expression for this reaction is:

Ka = [H3O+][ClO4-]/[HClO4]

Since HClO4 is a strong acid, we can again assume that [HClO4] ≈ [H3O+]. Thus, we can simplify the expression to:

Ka ≈ [H3O+]^2/[HClO4]

We can solve for [H3O+]:

[H3O+] = √(Ka*[HClO4])

The Ka value for HClO4 is approximately 1.0 x 10^-8 at 25°C. Therefore:

[H3O+] = √(1.0 x 10^-8 * 0.035) = 5.92 x 10^-5 M

Taking the negative logarithm of this concentration gives us the pH of the solution:

pH = -log([H3O+]) = -log(

5.92 x 10^-5) = 4.23

Therefore, the pH of a 0.035 M solution of HClO4 at 25⁰C is approximately 4.23.

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What is the density of carbon tetrahydride at 685 torr and 65 °c?

Answers

24.36 g/L is the density of carbon tetrahydride at 685 torr and 65 °c  .

We can use the ideal gas law :

PV = nRT

where:

P = pressure (685 torr)

V = volume

n = number of moles

R = gas constant (0.0821 L atm/mol K)

T = temperature (65 °C = 338.15 K)

To find the molar mass of carbon tetrahydride, we add up the atomic masses of each element:

C = 12.01 g/mol

H = 1.01 g/mol

4H atoms x 1.01 g/mol = 4.04 g/mol

Total molar mass = 12.01 + 4.04 = 16.05 g/mol

Now we can calculate n:

n = molar mass / mass of 1 mole = 16.05 g/mol / 1 mol = 16.05 g

Next, we can put  the values into the equation:

(685 torr) x (1 L) = (16.05 g) x (0.0821 L atm/mol K) x (338.15 K)

Solving for volume:

V = (16.05 g) x (0.0821 L atm/mol K) x (338.15 K) / (685 torr) = 0.659 L

Finally, we can calculate density:

density = mass / volume = 16.05 g / 0.659 L = 24.36 g/L

Therefore, the density of carbon tetrahydride at 685 torr and 65 °C is 24.36 g/L.

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Calculate the entropy of mixing per mole of the air, taking the composition by volume to be 79% N2, 20% O2 and 1% Ar.

Answers

The entropy of mixing per mole of air for this composition is -6.12 J/K.

The entropy of mixing can be calculated using the formula ΔS_mix = -RΣn_i ln(x_i), where R is the gas constant, n_i is the number of moles of each component i, and x_i is the mole fraction of each component i in the mixture.

Assuming a total of 1 mole of air, we can calculate the number of moles of each component as follows:
- 0.79 moles of N2 (79% of 1 mole)
- 0.20 moles of O2 (20% of 1 mole)
- 0.01 moles of Ar (1% of 1 mole)

The mole fractions of each component can be calculated by dividing the number of moles by the total number of moles:
- x_N2 = 0.79/1 = 0.79
- x_O2 = 0.20/1 = 0.20
- x_Ar = 0.01/1 = 0.01

Substituting these values into the formula for the entropy of mixing, we get:
ΔS_mix = -R[(0.79 ln 0.79) + (0.20 ln 0.20) + (0.01 ln 0.01)]
ΔS_mix = -R(0.588 + 0.138 + 0.010)
ΔS_mix = -R(0.736)

Using R = 8.314 J/(mol K), we can calculate the entropy of mixing per mole of air:
ΔS_mix = -(8.314 J/(mol K))(0.736)
ΔS_mix = -6.12 J/K

Therefore, the entropy of mixing per mole of air for this composition is -6.12 J/K.

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Provide a structural explanation for each of the following questions by drawing the appropriate structure and/or resonance contributors. Why would the chlorophenyl substituent cause a lower λmax value than the methoxyphenyl substituent?

Answers

The λmax value refers to the wavelength at which a molecule exhibits maximum absorbance of light. In general, electron-withdrawing substituents tend to shift the λmax to shorter wavelengths, while electron-donating substituents tend to shift the λmax to longer wavelengths.

In the case of a chlorophenyl substituent compared to a methoxyphenyl substituent, the difference in λmax can be explained by the electron-withdrawing nature of the chlorine atom compared to the electron-donating nature of the methoxy group.

The chlorophenyl substituent contains a chlorine atom, which is more electronegative than carbon and draws electron density away from the phenyl ring. This reduces the electron density in the aromatic ring system, making it less likely to absorb light and shifting the λmax to shorter wavelengths. The structural representation of chlorophenyl substituent in phenyl ring is as follows:

      Cl

       |

Ph---C

       |

      H

On the other hand, the methoxyphenyl substituent contains a methoxy group (-OCH3), which is electron-donating due to the presence of the lone pair of electrons on the oxygen atom. This increases the electron density in the aromatic ring system, making it more likely to absorb light and shifting the λmax to longer wavelengths. The structural representation of methoxyphenyl substituent in phenyl ring is as follows:

     OCH3

      |

Ph---C

      |

      H

Overall, the difference in electron density caused by the substituents in the phenyl ring leads to a difference in λmax value between chlorophenyl and methoxyphenyl substituents.

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which of the following molecules is/are polar? select all the polar molecules, this is a multiple response question.
O BH3
O NF3
O C2H6
O SF6
O CCI4

Answers

The polar molecules among the given options are H2O (water) and C2H6O (ethanol). These molecules exhibit a net dipole moment due to the difference in electronegativity between their constituent atoms.

CCl4 (carbon tetrachloride) is a nonpolar molecule, as its symmetrical structure cancels out any net dipole moment.

Ethanol (abbr. EtOH; also called ethyl alcohol, grain alcohol, drinking alcohol, or simply alcohol) is an organic compound. It is an alcohol with the chemical formula C2H6O.

Its formula can also be written as CH3−CH2−OH or C2H5OH (an ethyl group linked to a hydroxyl group).

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A 0.0720 L volume of 0.128 M hydrobromic acid (HBr), a strong acid, is titrated with 0.256 M rubidium hydroxide (RbOH), a strong base.
Determine the pH at the following points in the titration:
a) before any RbOH has been added.
b) after 0.0180 L RbOH has been added.
c) after 0.0360 L RbOH has been added.
d) after 0.0540 L RbOH has been added

Answers

a) pH = 0.98, b) pH = 1.65, c) pH = 7.00, d) pH = 12.34.

To determine the pH at each point, calculate moles of HBr and RbOH, determine the resulting concentrations, and use the pH or pOH formula to calculate pH.


a) Before any RbOH has been added, pH = -log10[H+] = -log10(0.128) ≈ 0.98.


b) After 0.0180 L RbOH has been added: moles HBr = 0.0720 L * 0.128 M, moles RbOH = 0.0180 L * 0.256 M. HBr remains after neutralization reaction. Calculate the new concentration of HBr and find the pH.


c) After 0.0360 L RbOH has been added: moles RbOH = 0.0360 L * 0.256 M. Now HBr and RbOH have reacted in a 1:1 ratio, meaning the solution is neutral, and the pH = 7.00.


d) After 0.0540 L RbOH has been added: moles RbOH = 0.0540 L * 0.256 M. Excess RbOH is present. Calculate the concentration of OH- ions and find the pOH. Then, use pH = 14 - pOH to find the pH.

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propose and draw a chemical reaction that would lead to complete discoloration of methyl orange

Answers

To achieve complete discoloration of methyl orange, start with an acidic solution containing methyl orange and add an appropriate amount of a base, such as sodium hydroxide, to raise the pH to the transition range between 3.1 and 4.4.

How is methyl orange discolored?

To propose and draw a chemical reaction that would lead to complete discoloration of methyl orange, we need to consider the following terms: methyl orange, acidic solution, and neutralization reaction.

Methyl orange is an acid-base indicator that changes color depending on the pH of the solution it is in. It is red in acidic solutions (pH less than 3.1) and yellow in alkaline solutions (pH greater than 4.4). The discoloration of methyl orange occurs when the pH of the solution is between 3.1 and 4.4, as it transitions from red to yellow.

To achieve complete discoloration of methyl orange, you can add an appropriate amount of a base to an acidic solution containing methyl orange to raise the pH to the transition range (between 3.1 and 4.4). Here is a proposed reaction using sodium hydroxide (NaOH) as the base:

1. Start with a solution containing methyl orange and a strong acid, such as hydrochloric acid (HCl):
  HCl (aq) + H2O (l) + Methyl orange (red)

2. Slowly add a solution of sodium hydroxide (NaOH) to the acidic solution. The reaction between NaOH and HCl produces water and sodium chloride (NaCl):
  NaOH (aq) + HCl (aq) -> H2O (l) + NaCl (aq)

3. As you add the NaOH solution, the pH of the solution increases, causing the methyl orange to change color:
  pH 3.1 to 4.4: Methyl orange (discolored)

4. Continue adding NaOH until the pH reaches the transition range, and the methyl orange is completely discolored.

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By how much does the chemical potential of carbon dioxide at 310 K and 2.0 bar differ from its standard value at that temperature?

Answers

The standard value of the chemical potential of carbon dioxide at 310 K and 1 bar is considered to be zero. However, at 2.0 bar, the chemical potential of carbon dioxide will be slightly different due to the increased pressure. This can be calculated using the following equation:

Δμ = RTln(P/P°)

Where Δμ is the difference in chemical potential, R is the gas constant, T is the temperature in Kelvin, P is the actual pressure (2.0 bar in this case), and P° is the standard pressure (1 bar).

Substituting the values, we get:

Δμ = (8.314 J/mol*K) * ln(2.0/1) * (310 K)

Δμ = 590.4 J/mol

Therefore, the chemical potential of carbon dioxide at 310 K and 2.0 bar differs from its standard value at that temperature by 590.4 J/mol.

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Build a model of benzene (1,3,5-cyclohexatriene).Take note of the overall shape of the benzene molecule.Question: Referring to the model, explain why there is no directionality for a substituent group coming of benzene.

Answers

There is no directionality for a substituent group coming off benzene because the benzene ring has a planar, symmetrical structure. The double bonds between the carbon atoms in the ring actually resonate, causing electrons to be delocalized across all six carbon atoms. This delocalization creates a uniform distribution of electron density and an equal probability of a substituent group attaching to any carbon atom in the ring. As a result, there is no preferential direction for a substituent group to attach to the benzene ring.


To build a model of benzene (1,3,5-cyclohexatriene), follow these steps:
Step:1. Create a hexagonal ring structure with six carbon atoms, each connected to the neighboring carbon atoms.
Step:2. Place double bonds between alternating carbon atoms, specifically between carbons 1 and 2, 3 and 4, and 5 and 6.
Step:3. Attach a hydrogen atom to each carbon atom, filling the remaining valence electrons.

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Compound A has a molar mass of 20g/mol and compound B has a molar mass of 30g/mol.


1. How many moles of compound B are needed to have the same mass as 6.0 mol of compound A? (Please give explanation not only the answer)

Answers

Answer:

9 moles

Explanation:

To find out how many moles of compound B are needed to have the same mass as 6.0 mol of compound A, we need to use the molar mass of each compound and set up a proportion:

Moles of A / Molar mass of A = Moles of B / Molar mass of B

We know that the molar mass of compound A is 20 g/mol and that we have 6.0 mol of it, so:

6.0 mol A / 20 g/mol A = Moles of B / 30 g/mol B

Simplifying this equation:

0.3 mol A = Moles of B / 30

Multiplying both sides by 30:

9 mol B = 0.3 mol A

So, we need 9 moles of compound B to have the same mass as 6.0 mol of compound A.

1.) Write the equilibrium onstant expression for the reaction below (Keq):
CH4(g)+2H2S(g) <--> CS2(g)+4H2(g)
A reation mixture initially contains 0.50M CH4 ad 0.75M H2S. If the equilibrium concenration of H2 is 0.44M, find the equilibrium constatn (Kc) for the reaction.
2.) Express the equilibrium constant for the following reaction.
P4(s)+5O2(g) <--> P4O10(s)

Answers

1. The equilibrium constant for the reaction is 0.086.

2. The equilibrium constant expression for the reaction Kp = (PP₄O₁₀) / (PP₄)(PO₂)⁵

1. The equilibrium constant expression (Kₑq) for the given reaction is:

Kc = [CS₂][H₂]⁴ / [CH₄][H₂S]²

where [X] denotes the concentration of X at equilibrium.

At equilibrium, if the concentration of H₂ is 0.44M, then the equilibrium concentrations of other species can be calculated as follows:

[CH₄] = 0.50M - x

[H₂S] = 0.75M - 2x

[CS₂] = x

[H₂] = 0.44M

where x is the change in concentration due to the reaction.

Substituting the equilibrium concentrations into the equilibrium constant expression, we get:

Kc = [CS₂][H₂]⁴ / [CH₄][H₂S]²

Kc = (x)(0.44)⁴ / (0.50 - x)(0.75 - 2x)²

Solving for x using the quadratic formula gives x = 0.076 M. Therefore, the equilibrium concentrations are:

[CH₄] = 0.424 M

[H₂S] = 0.598 M

[CS₂] = 0.076 M

[H₂] = 0.44 M

Substituting these values into the equilibrium constant expression gives:

Kc = (0.076)(0.44)⁴ / (0.424)(0.598)²

Kc = 0.086

Therefore, the equilibrium constant (Kc) for the reaction is 0.086.

2. The equilibrium constant expression (Kₑq) for the given reaction is:

Kc = [P₄O₁₀] / [P₄][O₂]⁵

where [X] denotes the concentration of X at equilibrium.

The equilibrium constant (Kc) for this reaction can also be expressed in terms of partial pressures (Kp) as:

Kp = (PP₄O₁₀) / (PP₄)(PO₂)⁵

where PP and PO denote the partial pressures of P and O, respectively.

The equilibrium constant (Kc or Kp) gives the ratio of the concentrations or partial pressures of the products and reactants at equilibrium. A large value of Kc or Kp indicates that the products are favored at equilibrium, while a small value indicates that the reactants are favored.

The value of Kc or Kp depends only on the temperature of the system, not on the initial concentrations or pressures of the reactants and products.

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Write the chemical equation and the Ka expression for the ionization of each of the following acids in aqueous solution. First show the reaction with H+(aq) as a product and then with the hydronium ion.
A) HBrO2. Show the reaction with H+(aq) as a product. Express your answer as a chemical equation. Identify all of the phases in your answer.
B) HBrO2. Show the reaction with the hydronium ion as a product. Express your answer as a chemical equation. Identify all of the phases in your answer.
C)C2H5COOH. Show the reaction with H+(aq) as a product. Express your answer as a chemical equation. Identify all of the phases in your answer.
D) C2H5COOH. Show the reaction with the hydronium ion as a product. Express your answer as a chemical equation. Identify all of the phases in your answer.
E) Write the Ka expression for ionization from the previous part.
Ka=
Write the expression for ionization from the previous part.
[H3O+][C2H5COO−][C2H5COOH][H2O]
[H3O+][C2H5COO−]
1[H3O+][C2H5COO−]
[H3O+][C2H5COO−][C2H5COOH]

Answers

The chemical reactions and Ka expressions are, HBrO₂ + H₂O → H₃O⁺ + BrO₂⁻, Ka expression is, Ka = [H₃O⁺][BrO₂⁻]/[HBrO₂]. HBrO₂ + H₃O⁺ → H₂O + H₃O⁺ + BrO₂⁻; Ka = [H₃O⁺][BrO₂⁻]/[HBrO₂]. 3. C₂H₅COOH + H₂O → H₃O⁺ + C₂H₅COO⁻; Ka = [H₃O⁺][C₂H₅COO⁻]/[C₂H₅COOH]. 4. C₂H₅COOH + H₃O⁺ → H₂O + H₃O⁺ + C₂H₅COO⁻; Ka = [H₃O⁺][C₂H₅COO⁻]/[C₂H₅COOH]. 4. Ka = [H₃O⁺][BrO₂⁻]/[HBrO₂] for HBrO₂; Ka = [H₃O⁺][C₂H₅COO⁻]/[C₂H₅COOH] for C₂H₅COOH.

Ka expression refers to the equilibrium constant expression for the ionization of a weak acid in water, where Ka represents the acid dissociation constant. It is defined as the ratio of the concentrations of the products to the concentration of the reactant, where each concentration is raised to the power of its coefficient in the balanced chemical equation. For a weak acid HA, the Ka expression is,

Ka = [H3O⁺][A⁻] / [HA]

where [H3O⁺] is the concentration of hydronium ions, [A⁻] is the concentration of the conjugate base of the weak acid, and [HA] is the initial concentration of the weak acid.

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at approximately what temperature would a specimen of -iron have to be carburized for 2 h to produce the same diffusion result as at 900c for 15 h?

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It can be inferred that the temperature required for the specimen of -iron to be carburized for 2 hours and achieve the same diffusion result as at 900°C for 15 hours would be around 950-1000°C.

What's Carburization

Carburization is the process of introducing carbon into a solid iron material to create a surface layer that is harder than the core. The temperature at which carburization occurs is critical to achieving the desired diffusion result.

At approximately what temperature a specimen of -iron would have to be carburized for 2 hours to produce the same diffusion result as at 900°C for 15 hours depends on several factors, such as the carbon content of the carburizing medium, the depth of the carburized layer, and the initial carbon content of the iron material.

Generally, the higher the carburizing temperature, the shorter the carburizing time required to produce the same diffusion result. For example, if the temperature is increased to 950°C, the time required for carburization will reduce by about half.

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What is the ph of 0.10 acetic acid?

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The pH of a 0.10 M acetic acid solution is approximately 2.87..

The pH of a solution of 0.10 M acetic acid can be calculated using the dissociation constant of acetic acid (Ka) and the concentration of the acid:

Ka = 1.8 x 10-⁵

Acetic acid is a weak acid, meaning it does not completely dissociate in water. The dissociation reaction can be written as:

CH₃COOH + H2O ⇌ CH₃COO- + H₃O

The equilibrium constant for this reaction is the acid dissociation constant (Ka).

Using the Ka value and the concentration of acetic acid, we can calculate the concentration of H+ ions in the solution using the following equation:

Ka = [H₃O+][CH₃COO-]/[CH₃COOH]

[H₃O] = sqrt(Ka*[CH3COOH])

[H₃O] = sqrt(1.8 x 10-⁵ * 0.10)

[H₃O] = 1.34 x 10-³ M

The pH is defined as the negative logarithm of the hydrogen ion concentration:

pH = -log[H3O+]

pH = -log(1.34 x 10-³)

pH = 2.87

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Atmospheric air at 35 degree C flows steadily into an adiabatic saturation device and leaves as a saturated mixture at 25 degree C. Makeup water is supplied to the device at 25 degree C. Atmospheric pressure is 98 kPa. Determine the relative humidity and specific humidity of the air.

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The relative humidity of the atmospheric air is approximately 66.97%, and the specific humidity is approximately 0.0146 kg/kg of dry air.

To determine the relative humidity and specific humidity of the air, follow these steps:

1. Find the saturation pressure of water vapor at 25°C (298 K) using the Antoine equation or steam tables. The saturation pressure is approximately 3.1698 kPa.


2. Calculate the partial pressure of water vapor in the air using the atmospheric pressure (98 kPa) and the saturation pressure. The partial pressure of water vapor is approximately 2.1234 kPa.


3. Determine the relative humidity by dividing the partial pressure of water vapor by the saturation pressure at 25°C, and then multiply by 100 to get the percentage.
  Relative humidity = (2.1234 kPa / 3.1698 kPa) × 100 ≈ 66.97%


4. Calculate the specific humidity by dividing the mass of water vapor by the mass of dry air, using the gas constant for air (R_air = 287 J/kg·K) and water vapor (R_vapor = 461 J/kg·K). The specific humidity is approximately 0.0146 kg/kg of dry air.

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Use the Born-Haber cycle to calculate the standard enthalpy of formation (ΔH >) for LiCl(s) given the following data: ΔH(sublimation) Li = 155. 2 kJ/mol I 1 (Li) = 520 kJ/mol Bond energy (Cl–Cl) = 242. 7 kJ/mol EA (Cl) = 349 kJ/mol Lattice energy (LiCl(s)) = 828 kJ/mol

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The standard enthalpy of formation (ΔH°f) for LiCl(s) is +412.35 kJ/mol.

The standard enthalpy of formation (ΔH°f) for LiCl(s) can be calculated using the Born-Haber cycle, which relates the enthalpy change for the formation of an ionic compound to various other energy changes involved. The steps involved in the Born-Haber cycle for LiCl(s) are:

1. Sublimation of Li(s): Li(s) → Li(g) ΔH° = +155.2 kJ/mol

2. Ionization of Li(g): Li(g) → Li+(g) + e- ΔH° = +520 kJ/mol

3. Dissociation of Cl₂(g): Cl₂(g) → 2Cl(g) ΔH° = +242.7 kJ/mol

4. Electron affinity of Cl(g): Cl(g) + e- → Cl-(g) ΔH° = -349 kJ/mol

5. Formation of LiCl(s): Li+(g) + Cl-(g) → LiCl(s) ΔH° = -828 kJ/mol

The value of ΔH°f for LiCl(s) can be calculated by summing the enthalpy changes for these steps, which gives:

ΔH°f(LiCl) = Σ(nΔH°f(products)) - Σ(nΔH°f(reactants))

            = ΔH°f(LiCl(s)) - [ΔH°(sublimation of Li) + ΔH°(ionization of Li) + 1/2ΔH°(dissociation of Cl₂) + ΔH°(electron affinity of Cl) + ΔH°(lattice energy of LiCl)]

            = ΔH°f(LiCl(s)) - [155.2 + 520 + 1/2(242.7) + (-349) + 828] kJ/mol

            = ΔH°f(LiCl(s)) - 415.65 kJ/mol

Solving for ΔH°f(LiCl(s)), we get:

ΔH°f(LiCl(s)) = 415.65 kJ/mol - (-828 kJ/mol) = +412.35 kJ/mol

As a result, the standard enthalpy of formation (H°f) for LiCl(s) is +412.35 kJ/mol.

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Compounds with hydroxyl groups are more likely to act as an acid if: Select the correct answer below O bonds to the central atom are ionic O bonds to the central atom are covalent O they are of higher mass O they are of lower mass

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Compounds with hydroxyl groups are more likely to act as an acid if they have covalent bonds between the O and the central atom. This is because the O is able to donate its lone pair of electrons to form a bond with the central atom, and the presence of the hydroxyl group makes the molecule more likely to release a hydrogen ion (H+) in the solution, making it acidic.

Compounds with hydroxyl groups are more likely to act as an acid if bonds to the central atom are covalent. In these compounds, the presence of hydroxyl groups (-OH) can cause the molecule to act as an acid by donating a hydrogen ion (H+) to a solution. The covalent bond between the central atom and the oxygen atom in the hydroxyl group enables this acidic behavior.

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Rank the following compounds in order of increasing oxidation level (from lowest to highest). I. CH3COOH II. CH3CH3 III. CH3CHO IV. CH2=CH2 a. II < III < I < IV b. I < III < II < IV c. IV < I < III < II d. II < IV < III < I

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d. II < IV < III < I. Now, we can rank them in order of increasing oxidation level:
II (ethane) < III (acetaldehyde) < I (acetic acid) < IV (ethylene)

- CH3CH3 is a compound with only C-C and C-H single bonds, so it has the lowest oxidation level.
- CH2=CH2 is an unsaturated compound with a C=C double bond, so it has a higher oxidation level than CH3CH3.
- CH3CHO is an aldehyde with a carbonyl group (C=O), which has a higher oxidation level than CH2=CH2.
- CH3COOH is a carboxylic acid with a carboxyl group (-COOH), which has the highest oxidation level among the given compounds.
Therefore, the correct order from lowest to highest oxidation level is II < IV < III < I.
To rank the compounds in order of increasing oxidation level, we need to analyze the oxidation state of carbon in each compound:
I. CH3COOH (acetic acid): In this compound, the carbonyl carbon has an oxidation state of +3, while the methyl carbon has an oxidation state of -3. The average oxidation state of carbon is 0.
II. CH3CH3 (ethane): In this compound, both carbons have an oxidation state of -3.
III. CH3CHO (acetaldehyde): The carbonyl carbon has an oxidation state of +1, while the methyl carbon has an oxidation state of -3. The average oxidation state of carbon is -1.
IV. CH2=CH2 (ethylene): Each carbon in this compound has an oxidation state of 0.
Now, we can rank them in order of increasing oxidation level:
II (ethane) < III (acetaldehyde) < I (acetic acid) < IV (ethylene)
So, the correct answer is d. II < IV < III < I.

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use the fact that |ca| = cn|a| to evaluate the determinant of the n × n matrix. a = 15 10 25 −5 step 1: factor out the greatest common divisor.

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To evaluate the determinant of the n × n matrix a = 15 10 25 −5 using the fact that |ca| = cn|a|, we need to first factor out the greatest common divisor (gcd) of the matrix. The determinant of the n × n matrix a = 15 10 25 −5 is 75.


First, let's find the greatest common divisor (GCD) of the given elements in matrix A:

Matrix A:
| 15  10  25  -5 |

The GCD of 15, 10, 25, and -5 is 5. Now, let's factor out the GCD from the matrix A:

Matrix B (after factoring out 5):
| 3  2  5  -1 |

Now, you can calculate the determinant of the n × n matrix B using any method you prefer (such as row reduction, cofactor expansion, etc.). Let's assume the determinant of matrix B is det(B).

Since we factored out a 5 from matrix A to get matrix B, we can use the property |ca| = cn|a| to find the determinant of matrix A. In this case, c = 5 and n = 4 (since it's a 4 × 4 matrix).

So, det(A) = 5^4 * det(B).

After calculating the determinant of matrix B, multiply it by 5^4 to find the determinant of matrix A.

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what saponifies methyl cinnamate synthesis of methyl cinnamate

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Methyl cinnamate is a fragrant organic compound commonly used in the production of perfumes and flavorings.

Its synthesis typically involves the reaction of cinnamic acid with methanol, in the presence of a strong acid catalyst such as sulfuric acid. This reaction, known as esterification, forms methyl cinnamate, and water.

Once synthesized, methyl cinnamate can undergo saponification, a reaction that hydrolyzes the ester bond between the methyl group and the cinnamate group. This reaction can be carried out by treating methyl cinnamate with a strong base, such as sodium hydroxide, resulting in the formation of cinnamic acid and methanol. Saponification is commonly used to break down esters and is an important process in the production of soaps, detergents, and emulsifiers.

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The Michael reaction is a conjugate addition reaction between a stable nucleophilic enolate ion (the donor) and an a,B-unsaturated carbonyl compound (the acceptor). Draw the structure of the product of the Michael reaction between propenenitrile and nitroethane

Answers

So, the structure of the product of the Michael reaction between propenenitrile and nitroethane is CH3CH2CH2C=C(NO2)CN.



What is Michael Reaction?

The Michael reaction is a type of organic chemical reaction that involves the conjugate addition of a nucleophile to an α,β-unsaturated carbonyl compound, typically an enone or a Michael acceptor To get the product of Michael reactiom follow the below steps:

1. Identify the donor and acceptor molecules: In this case, nitroethane is the nucleophilic enolate ion donor, and propenenitrile is the α,β-unsaturated carbonyl compound acceptor.

2. Locate the nucleophilic and electrophilic sites: Nitroethane has a nucleophilic alpha carbon adjacent to the nitro group, while propenenitrile has an electrophilic β-carbon in its double bond.

3. Perform the conjugate addition: The nucleophilic alpha carbon of nitroethane attacks the electrophilic β-carbon of propenenitrile, forming a new carbon-carbon bond and breaking the double bond in propenenitrile.

4. Obtain the product structure: After the conjugate addition, the resulting product has a nitro group on one end, followed by three carbons in a row, and a nitrile group on the other end.

The structure of 3-(nitroethyl)acrylonitrile is shown below:

CH3CH2CH2NO2          CH2=CHCN
Nitroethane             Propenenitrile

↓                                     ↓

CH3CH2CH2C=C(NO2)CN

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Consider the following two half-reactions and their standard reduction potentials, and answer the three questions below. MnO^4- (aq) + 4 H^+ (aq) + 3^e → MnO2 (s) + 2H2O (l) E ⁰ = 1.673 V
N2O (g) + 2 H^+ (aq) + 2^e → N2 (g) + H2O (l) E ⁰ = 1.766 V
a. Calculate E for the spontaneous redox reaction that occurs when these two half-reactions are coupled. b. Calculate the value of for the reaction. c. Determine the equilibrium constant for the reaction.

Answers

a. The E⁰ for the spontaneous redox reaction that occurs when the two half-reactions are coupled is 0.093 V.

b. The value of ΔG⁰ for the reaction is -54.1 kJ/mol.

c. The equilibrium constant for the reaction is 2.97 × 10²³.

a. To calculate E⁰ for the spontaneous redox reaction, you need to first identify the reduction and oxidation half-reactions. The half-reaction with the higher standard reduction potential (E⁰) will undergo reduction, and the other will undergo oxidation. In this case, N₂O has the higher E⁰ value (1.766 V), so it will be reduced. The MnO₄⁻ half-reaction will be oxidized, and its E⁰ value needs to be reversed (to -1.673 V). Now, add the two E⁰ values to find the overall E for the redox reaction:

E⁰ = E⁰(reduction) + E⁰(oxidation) = 1.766 V + (-1.673 V) = 0.093 V

b. To calculate the Gibbs free energy change (ΔG) for the reaction, use the following formula:

ΔG⁰ = -nFE

n is the number of electrons transferred (here, it's 2 for the N₂O half-reaction and 3 for the MnO₄⁻ half-reaction; find the least common multiple to balance the electrons: 6). F is Faraday's constant (96,485 C/mol). E is the cell potential we calculated in part a (0.093 V).

ΔG = -(6 mol e⁻)(96,485 C/mol e⁻)(0.093 V) = -54,052 J/mol = -54.1 kJ/mol

c. To determine the equilibrium constant (K) for the reaction, use the relationship between ΔG, K, and the gas constant (R = 8.314 J/mol·K) and the temperature (T, usually 298 K for standard conditions):

ΔG = -RTln(K)

Rearrange to solve for K:

K = e^(-ΔG/RT) = e^(54,052 J/mol / (8.314 J/mol·K)(298 K)) ≈ 2.97 × 10²³

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knowing that the ksp for CaHPO4 is 7 x 10-7, predict whether CaHPO4 will precipitate from a solution with [Ca2+ ] = 0.0001 M and [HPO4 2−] = 0.001 M. give the value of Q in 1 sig. fig.The value of Q is ____ x _____ which is _______ the Ksp and therefore a precipitate _______

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The value of Q is 1 x 10⁻⁷ which is less than the given Ksp and therefore precipitate will not form.

The solubility product constant (Ksp) for CaHPO₄ is 7 x 10⁻⁷. To determine whether CaHPO₄ will precipitate from a solution with [Ca²⁺] = 0.0001 M and [HPO₄²⁻ ] = 0.001 M, we need to calculate the ion product (Q) of the solution.

The balanced chemical equation for the dissolution of CaHPO₄ is:

CaHPO₄(s) ⇌ Ca²⁺(aq) + HPO₄ ²⁻(aq)

The ion product (Q) for the solution can be calculated as follows:

Q = [Ca²⁺][HPO₄²⁻] = (0.0001 M)(0.001 M) = 1 x 10⁻⁷

The value of Q is 1 x 10⁻⁷, which is slightly smaller than the Ksp (7 x 10⁻⁷). Therefore, a precipitate of CaHPO₄ is not expected to form under these conditions, since the ion product is less than the solubility product.

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An unknown gas diffuses half as fast as nitrogen. What is the molecular mass of the unknown gas?

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An unknown gas diffuses half as fast as nitrogen the molecular mass of the unknown gas is approximately 7 g/mol.

The rate of diffusion of a gas is inversely proportional to the square root of its molecular mass, according to Graham's law of effusion. Therefore, we can use the following formula to solve the problem:

Rate of diffusion = k / sqrt(molecular mass)

where k is a constant of proportionality.

If the unknown gas diffuses half as fast as nitrogen, then its rate of diffusion is 1/2 that of nitrogen. Therefore, we can write:

Rate of diffusion of unknown gas = (1/2) x Rate of diffusion of nitrogen

Let's assume that nitrogen has a molecular mass of M, and the unknown gas has a molecular mass of m. Then, we can write:

(1/2) x (k / sqrt(m)) = k / sqrt(M)

Simplifying this equation, we get:

sqrt(m) / sqrt(M) = 1 / 2

Cross-multiplying, we get:

2 sqrt(m) = sqrt(M)

Squaring both sides, we get:

4m = M

Therefore, the molecular mass of the unknown gas is one-fourth that of nitrogen. If we know the molecular mass of nitrogen, we can easily calculate the molecular mass of the unknown gas.

The molecular mass of nitrogen is approximately 28 g/mol. Therefore, the molecular mass of the unknown gas is:

m = M/4 = 28/4 = 7 g/mol

Thus, the molecular mass of the unknown gas is approximately 7 g/mol.

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Strategic human resource managementD. Talent management ARTS - Answer these 3 puppetry questions with the proper definitions.Question 1. In puppetry, what does the word articulate mean?a. bring an inanimate object aliveb. to speak in different voicesc. be able to move the mouth of the puppet in synchronicity with the puppeteers voiced. the movement of a puppet at a joint such as an elbowQuestion 2. What is a hand puppet? a. a puppet controlled by stringsb. puppet placed over the hand of the puppeteer that is manipulated by the puppeteerc. a puppet that needs rods and sticks to manipulate its jointsd. a puppet that must be operated by 2 puppeteersQuestion 3. What is a rod puppet?a. puppet controlled by stringsb. puppet that takes 2 people to operatec. a puppet with a rod or a stick that manipulates the head, body, hands or legs of the puppetd. a puppet where the audience only sees the shadow of the puppet Calculating Momentum Before and After Collision 18 Calculate the average time for the fives trials of each setup and record in Data Table 2. 19 Calculate the velocity of each marble using the average time for each setup and the equation below, and record in Data Table 2 using correct significant figures. d 20 Calculate the momentum of each marble for each setup using the equation below and record in Data Table 2 using correct significant figures. p=mv Note: The mass (m) used to calculate the momentum (p) must be measured in kg. To convert g to kg, use the conversion factor: 1 kg = 1000 g. 21 Repeat steps 7-20 for the remaining combinations of marbles (setups) listed in Data Table 2. 22 Calculate the total momentum (the sum of each marble's momentum) of each interaction before the collision and after the collision and record in Data Table 3. Note: Each interaction (setup) is designated by a letter in Data Table 3 corresponding to the setup letters in Data Table 2. 23 Calculate the percentage of momentum loss before and after the collision using the following equation and record in Data Table 3. Percent Loss = (initial momentum - final monemtum) x 100% initial momentum 24 Use graphing software to generate a graph of total momentum before the collision on the x axis and total momentum after the collision on the y axis for all the interactions listed in Data Table 3. Note: Include a line and the equation for the line on the graph. 25 Label the graph with title and x and y axis titles, including units, and upload an image of the graph to Graph 1. Trial 2 time (s) Trial 3 Trial 4 Trial 5 time (s) time (s) time (s) Average Velocity time (s) (m/s) Momentum (kg m/s) 2.60 3.10 3.05 5.98 3.51 0.01 0.03 0.97 0.76 0.90 0.94 0.90 0.09 0.40 0.94 0.89 0.61 0.53 0.77 0.10 0.44 3.25 3.58 3.25 3.35 3.40 0.01 0.03 Data Table 2: Velocity and Momentum Setup Marble Mass (g) Measured Trial 1 size distance time (s) (m) A. Small 4.05 0.036 2.83 Marble 1 Initial A. Small 4.05 0.087 0.93 Marble 2 Final A. Small 4.05 0.087 0.88 Marble 1 Final B. Small 4.05 0.355 3.57 Marble 1 Initial B. Medium 5.77 0.087 0.47 Marble 2 Final B. Small 4.05 0.089 0.66 Marble 1 Final C. Medium 5.77 0.355 1.80 Marble 1 Initial C Small 4.05 0.087 0.60 Marble 2 Final C. Medium 5.77 0.087 0.64 Marble 0.61 0.59 0.56 0.61 0.57 0.15 0.88 0.67 0.67 0.61 0.60 3.25 0.02 0.12 1.57 1.58 1.64 1.95 1.71 0.02 0.12 0.67 0.61 0.67 0.77 3.32 0.03 0.12 0.67 0.70 0.77 0.69 0.7 0.12 0.74 Experiment 2 Exercis Graph 1 5 Data Table 2 Data Table 3 Data Table 3: Total Momentum Setup Total momentum before A Total momentum after Percentage momentum loss B D E 3. Use the data in Data Table 2 to relate the momentum of the largest marble to the momentum of the smallest marble for a variety of circumstances. 1 U III T T, o Word(s) Small 4.05 0.035 3.53 3.40 3.81 3.60 4.57 3.80 0.01 0.04 Large 9 0.088 0.50 0.51 0.55 0.51 0.56 0.52 0.16 1.52 Small 4.05 .088 0.84 0.96 1.00 0.96 0.91 0.93 0.10 0.36 Trial D. Marble 1 Initial D. Marble 2 Final D. Marble 1 Final E Marble 1 Initial E. Marble 2 Final E. Marble 1 Final Large 9 0.035 1.30 1.30 1.25 1.23 1.21 1.25 0.02 0.19 Small 4.05 0.088 0.81 0.83 0.90 0.96 0.90 4.40 0.02 10.08 Large 9 0.088 0.53 0.61 0.55 0.60 0.52 0.55 0.16 1.44 The linear impulse delivered by the hit of a boxer is 287 N s during the 0.523 s of contact.What is the magnitude of the average force exerted on the glove by the other boxer?Answer in units of N.