1. A 0.020 M solution of niacin has a pH of 3.26. What is the acid-dissociation constant for niacin? Find the percent dissociation (ionization).

2. Write the reaction and expression for Ka3 for phosphoric acid.

Answers

Answer 1



1. The acid dissociation constant (Ka) for niacin can be calculated using the Henderson-Hasselbalch equation:

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

where [A-] is the concentration of the conjugate base and [HA] is the concentration of the acid.

Rearranging this equation, we get:

Ka = [A-][H+]/[HA]

We are given that the concentration of niacin is 0.020 M and the pH is 3.26. At this pH, the concentration of H+ is 5.01 x 10^-4 M. Assuming niacin is a monoprotic acid, we can use the following equation:

[H+][A-]/[HA] = 10^-pH

Substituting the given values, we get:

(5.01 x 10^-4)([A-])/0.020 = 10^-3.26

Solving for [A-], we get [A-] = 1.28 x 10^-5 M.

Now, we can calculate Ka:

Ka = (1.28 x 10^-5)(5.01 x 10^-4)/0.020 = 3.22 x 10^-5

Therefore, the acid-dissociation constant for niacin is 3.22 x 10^-5.

To find the percent dissociation (ionization), we can use the formula:

% dissociation = ([A-]/[HA]) x 100%

At equilibrium, the concentration of [HA] is equal to the initial concentration of niacin (0.020 M), and the concentration of [A-] is 1.28 x 10^-5 M.

% dissociation = (1.28 x 10^-5/0.020) x 100% = 0.064%

Therefore, the percent dissociation of niacin is 0.064%.

2. The reaction and expression for Ka3 for phosphoric acid can be written as:

Reaction: H3PO4 + H2O ⇌ H2PO4- + H3O+

Expression: Ka3 = ([H2PO4-][H+])/[H3PO4]

Note that phosphoric acid is a triprotic acid, meaning it can donate three protons (H+ ions) to water. Ka3 represents the dissociation constant for the third proton donation, or the formation of the H2PO4- ion.

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Related Questions

Ammonium chloride decomposes according to the equation NH4Cl(s) ⇌ NH3(g) + HCl(g) with Kp = 5.82 × 10−2 bar2 at 300°C. Calculate the equilibrium partial pressure of each gas and the number of grams of NH4Cl(s) produced if equal molar quantities of NH3(g) and HCl(g) at an initial total pressure of 8.87 bar are injected into a 2.00-liter container at 300°C.

Answers

Approximately 0.621 g of NH4Cl will be produced under the given conditions.

The first step is to use the equilibrium constant (Kp) to calculate the equilibrium partial pressures of NH3 and HCl. Since the balanced equation shows that one mole of NH3 and one mole of HCl are produced for each mole of NH4Cl that decomposes, the equilibrium partial pressure of NH3 and HCl will be equal.

Let x be the equilibrium partial pressure of NH3 (in bar). Then, according to the equation for Kp:

Kp = (NH3)^1 x (HCl)^1 = x^2

Solving for x, we get:

x = sqrt(Kp) = sqrt(5.82 × 10−2 bar2) = 0.241 bar

Therefore, the equilibrium partial pressure of NH3 and HCl is 0.241 bar.

Next, we can use the ideal gas law to calculate the number of moles of NH3 and HCl that are present in the container at equilibrium:

n = PV/RT

where P is the partial pressure of the gas, V is the volume of the container, R is the ideal gas constant, and T is the temperature in Kelvin.

Using the given values, we get:

n(NH3) = n(HCl) = (0.241 bar x 2.00 L) / (0.08314 L bar mol−1 K−1 x 573 K) = 0.0116 mol

Since the initial total pressure is 8.87 bar and the partial pressure of each gas at equilibrium is 0.241 bar, the partial pressure of NH4Cl must be 8.87 − 2(0.241) = 8.388 bar.

Finally, we can use the number of moles of NH4Cl and its molar mass to calculate the mass produced:

n(NH4Cl) = 0.0116 mol

m(NH4Cl) = n(NH4Cl) x M(NH4Cl) = 0.0116 mol x 53.49 g/mol = 0.621 g

Therefore, approximately 0.621 g of NH4Cl will be produced under the given conditions.

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How many argon (Ar) atoms are there in 1.5 x 10^2?

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There are 9.033 x 10^25 Argon atoms in 1.5 x 10^2 moles of Argon.

To determine the number of Argon atoms in 1.5 x 10^2 moles of Argon, we need to use Avogadro's number. Avogadro's number is defined as the number of particles (atoms, molecules, or ions) in one mole of a substance. The value of Avogadro's number is approximately 6.022 x 10^23 particles per mole.

To calculate the number of Argon atoms in 1.5 x 10^2 moles of Argon, we can use the following equation:

Number of Argon atoms = (1.5 x 10^2 moles) x (6.022 x 10^23 atoms/mole)

Number of Argon atoms = 9.033 x 10^25 atoms

It is important to note that the number of atoms in a substance can vary depending on the quantity of the substance being considered. For example, one mole of a substance will always contain Avogadro's number of particles, but if we consider a smaller quantity of the substance, we would need to use a different conversion factor to calculate the number of particles present.

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cobalt- is radioactive and has a half life of years. how much of a sample would be left after years?

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Cobalt-60 is radioactive and has a 5.26-year half-life. 1.82 mg of a 3.60 mg sample would remain after 5.20 years.

A weakly radioactive and unstable isotope of the element carbon is called radiocarbon (carbon 14). Stable isotopes of carbon include carbon 12 and 13. The interaction of cosmic ray neutrons with nitrogen 14 atoms results in the continuous formation of carbon 14 in the upper atmosphere.

The half-life t1/2 = 5.26 years

k = 0.693 / t1/2, the decay constant

= 0.693 /5.26

= 0.1317 / year

the expression is given as :

t = 2.303 / k log No/N

No = 3.60 mg

t = 5.20 yr

5.20 = 2.303 / 0.1317 log 3.60 / N

5.20 = 17.4 log 3.60 / N

log 3.60 / N = 0.2988

3.60 / N = 1.989

N = 1.82 mg

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The complete question is

cobalt- is radioactive and has a half life of years. how much of a sample would be left after years? round your answer to significant digits. also, be sure your answer has a unit symbol.

what is the net number of phosphoanhydride bonds broken in the addition of one molecule of glucose-6-phosphate to a pre-existing glycogen molecule?

Answers

The net number of phosphoanhydride bonds broken in the addition of one molecule of glucose-6-phosphate to a pre-existing glycogen molecule is one.

Here's a step-by-step explanation:

1. Glucose-6-phosphate is converted to glucose-1-phosphate by the enzyme phosphoglucomutase.
2. Glucose-1-phosphate reacts with UTP (uridine triphosphate) to form UDP-glucose, catalyzed by the enzyme UDP-glucose pyrophosphorylase. In this step, a phosphoanhydride bond between the β and γ phosphates of UTP is broken, and a pyrophosphate molecule is released.
3. Finally, the enzyme glycogen synthase adds the glucose residue from UDP-glucose to the pre-existing glycogen molecule, forming a new α-1,4-glycosidic bond.

The only phosphoanhydride bond that is broken in this process is the one between the β and γ phosphates of UTP during step 2. Therefore, the net number of phosphoanhydride bonds broken in this process is one.

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what is meant by the presence of a common ion? how does the presence of a common ion affect an equilibrium such as hno2 1aq2mh1 1aq2 1 no2 2 1aq2

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The presence of a common ion refers to a situation in which an ion that is already present in a solution is added to a reaction that involves the same ion. For example, if a solution already contains chloride ions and more chloride ions are added to a reaction that involves chloride ions, then the added chloride ions are considered a common ion.

In the case of the equilibrium involving HNO2, NH4+, and NO2-, the presence of a common ion (such as NH4+) would shift the equilibrium towards the reactant side because it would increase the concentration of NH4+ in the solution. This would cause a decrease in the concentration of HNO2 and NO2-. The Le Chatelier's principle predicts that the equilibrium would shift to counteract the increase in NH4+ concentration, and so the reaction would proceed in the direction that uses up NH4+.

Overall, the presence of a common ion affects the equilibrium by changing the concentration of one or more of the ions involved in the reaction, which can cause the equilibrium to shift towards one side or the other in order to maintain the equilibrium constant.

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A buffer is made by adding 0.300 mol of CH3COOH and 0.300 mol of CH3COONa to enough water to make 1.000 L of solution. The pH of the buffer is 4.74.
(a) Calculate the pH of this solution after 5.00 mL of 4.0 M NaOH (aq) solution is added. Write out the balanced equation for the reaction.
(b) For a comparison, calculate the pH of a solution made by adding 5.0 mL of 4.0 M NaOH (aq) solution to 1.000 L of water.
(c) Did your calculated pH’s match what you expected? Please explain for either answer.

Answers

The pH of the solution after adding 5.00 mL of 4.0 M NaOH is 4.72.

(a) The balanced equation for the reaction between CH3COOH and NaOH is:

CH3COOH + NaOH → CH3COONa + H2O

Since the buffer contains equimolar amounts of CH3COOH and CH3COONa, the initial pH is given by the dissociation of CH3COOH:

CH3COOH + H2O ⇌ CH3COO- + H3O+

Ka = [CH3COO-][H3O+]/[CH3COOH]

Using the Ka value of 1.8 x 10^-5 for CH3COOH, we can calculate the initial concentration of H3O+:

Ka = x^2/[0.3-x]

where x is the concentration of H3O+.

Since the initial concentration of CH3COOH is 0.3 M, we can assume that the change in concentration due to the addition of NaOH is negligible. Therefore, the concentration of H3O+ is:

Ka = x^2/0.3

x = 1.59 x 10^-5 M

pH = -log[H3O+] = 4.80

After adding 5.00 mL of 4.0 M NaOH, we can calculate the new concentration of CH3COO-:

moles of CH3COOH = 0.3 mol

moles of CH3COO- = 0.3 mol + (5.00 mL/1000 mL/L)(4.0 mol/L) = 0.32 mol

total volume = 1.000 L + 5.00 mL/1000 mL/L = 1.005 L

[CH3COO-] = moles of CH3COO-/total volume = 0.32/1.005 = 0.318 M

The balanced equation for the reaction between CH3COO- and H3O+ is:

CH3COO- + H3O+ → CH3COOH + H2O

Using the initial concentration of CH3COOH and the new concentration of CH3COO-, we can calculate the new pH:

Ka = [CH3COO-][H3O+]/[CH3COOH]

1.8 x 10^-5 = (0.318)(x)/0.3

x = 1.91 x 10^-5 M

pH = -log[H3O+] = 4.72

Therefore, the pH of the solution after adding 5.00 mL of 4.0 M NaOH is 4.72.

(b) When 5.0 mL of 4.0 M NaOH is added to 1.000 L of water, we can calculate the concentration of OH-:

moles of NaOH = (5.0 mL/1000 mL/L)(4.0 mol/L) = 0.02 mol

total volume = 1.000 L + 5.0 mL/1000 mL/L = 1.005 L

[OH-] = moles of NaOH/total volume = 0.02/1.005 = 0.020 M

pOH = -log[OH-] = 1.70

pH = 14 - pOH = 12.30

Therefore, the pH of the solution made by adding 5.0 mL of 4.0 M NaOH to 1.000 L of water is 12.30.

(c) Yes, the calculated pH's match what was expected. The pH of the buffer solution only changes slightly after the addition of NaOH due

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Calculate the volume that..) Check my answer?? My answer was 267 L is that correct?

Answers

The volume of the gas is obtained as 5.99 L.

What is the ideal gas equation?

The ideal gas equation is used to predict how ideal gases will behave in various scenarios and describes the relationship between the physical properties of gases. The equation takes the ideal behavior of gases as a given.

We know that the number of moles = mass/Molar mass

= 12.5 g/44 g/mol

= 0.28 moles

Using;

PV = nRT

V = nRT/P

V = 0.28 * 0.082 * 313/1.2

V = 5.99 L

Th new volume of the gas is 5.99 L

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Given 73.0 g of hydrochloric acid in 3.0 L, what is the pH? What is [H*]?

Answers

The pH and H+ of 73.0g of hydrochloric acid is 0.174 and 0.67M respectively.

How to calculate pH?

The pH of a solution is a figure expressing the acidity or alkalinity of a solution on a logarithmic scale on which 7 is neutral, lower values are more acid and higher values more alkaline.

The pH of a solution can be calculated using the following expression;

pH = -log {H+}

moles of HCl = 73g ÷ 36.5g/mol = 2moles

molarity of HCl = 2mol ÷ 3L = 0.67M

pH = - log {0.67}

pH = 0.174

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How does the structural formula for diethyl sulfide differ from that of diethyl ether?

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Diethyl sulfide and diethyl ether are both organic compounds with similar molecular formulas, but their structural formulas differ in the type of functional group present.

Diethyl ether has an oxygen atom with two carbon atoms attached on either side, which forms an ether functional group (-O-). This ether functional group gives diethyl ether its characteristic properties, such as its ability to act as a solvent and its low boiling point.

In contrast, diethyl sulfide has a sulfur atom with two carbon atoms attached on either side, which forms a thioether functional group (-S-). The presence of the sulfur atom in diethyl sulfide gives it distinct chemical and physical properties compared to diethyl ether.

For example, diethyl sulfide has a higher boiling point than diethyl ether due to the stronger dipole-dipole interactions between its sulfur atoms. Additionally, diethyl sulfide has a characteristic odor that is often described as being similar to that of garlic or onions.

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how many unpaired electrons are in the d orbitals of an octahedral complex of mn2 , assuming a strong-field complex

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There are no unpaired electrons in the d orbitals of an octahedral complex of Mn(II) with a strong-field ligand arrangement.

How to determination the number of unpaired electrons in the d orbitals of an octahedral complex of Mn(II)?

An octahedral complex of Mn(II) is formed by six ligands in an octahedral arrangement around the central Mn(II) ion. For a strong-field complex, the ligands will cause the splitting of the five degenerate d orbitals into two sets of three orbitals.

The lower set of orbitals, known as t2g, will be filled with six electrons, while the upper set of orbitals, known as eg, will be empty.

Therefore, in an octahedral complex of Mn(II), all five d electrons will occupy the t2g set of orbitals, leaving no unpaired electrons in the d orbitals. Thus, the complex will have a diamagnetic character.

In summary, there are no unpaired electrons in the d orbitals of an octahedral complex of Mn(II) with a strong-field ligand arrangement.

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35 grams of potassium chlorate are dissolved in 100 grams of water. the solution is heated until all of the solid dissolves, and then cooled to 400c. how many grams of potassium chlorate precipitate out?

Answers

30.16 grams of potassium chlorate will precipitate out of the solution when it is cooled to 40°C.

When the solution is heated, all of the potassium chlorate will dissolve in the water. However, when the solution is cooled to 40°C, the solubility of potassium chlorate decreases, causing some of the solid to precipitate out.
To determine how much potassium chlorate will precipitate out, we need to know the solubility of potassium chlorate in water at 40°C. According to the solubility chart, the solubility of potassium chlorate in water at 40°C is 12.4 grams per 100 grams of water.
Since the original solution contained 35 grams of potassium chlorate in 100 grams of water, the concentration of the solution is 35/100 or 0.35 grams per gram of water. To calculate how much potassium chlorate will precipitate out, we need to determine how much of the potassium chlorate exceeds the solubility limit of 12.4 grams per 100 grams of water.
At 40°C, the solubility limit is 12.4 grams of potassium chlorate per 100 grams of water. Therefore, the amount of potassium chlorate that will remain in solution is 12.4 grams per 100 grams of water.
To determine how much potassium chlorate will precipitate out, we can subtract the solubility limit from the initial concentration of the solution:
35 grams potassium chlorate - (12.4 grams potassium chlorate / 100 grams water) x 100 grams water = 30.16 grams potassium chlorate will precipitate out.
Therefore, 30.16 grams of potassium chlorate will precipitate out of the solution when it is cooled to 40°C.

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what voltage would have been observed if you had switched the position of the electrodes but not the solutions for any of the electrochemical cells? (e.g., placed cu electrode in zn2 and zn electrode in cu2 ) reference reduction potentials: cu2 (aq) 2e- --> cu(s) 0.34v zn2 (aq) 2e- --> zn(s) -0.76v

Answers


If the position of the electrodes were switched but not the solutions for any of the electrochemical cells, the observed voltage would be the negative of the original voltage.



This is because the voltage of an electrochemical cell is determined by the difference in reduction potentials between the two half-cells. When the position of the electrodes is switched, the half-cell potentials are reversed, which changes the overall voltage of the cell.

For example, the original cell with copper as the cathode and zinc as the anode has a voltage of:

Ecell = Ecathode - Eanode
Ecell = 0.34 V - (-0.76 V)
Ecell = 1.10 V

If the position of the electrodes is switched, the new cell would have zinc as the cathode and copper as the anode. The voltage of this cell would be:

Ecell = Ecathode - Eanode
Ecell = (-0.76 V) - 0.34 V
Ecell = -1.10 V

Therefore, the observed voltage would be the negative of the original voltage.

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the ions that are indicated by the question mark and reabsorbed in the proximal tubule are_____.

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The ions that are indicated by the question mark and reabsorbed in the proximal tubule are sodium ions (Na+), potassium ions (K+), and bicarbonate ions (HCO3-). These ions play important roles in maintaining the body's fluid balance and acid-base balance.

The ions that are indicated by the question mark and reabsorbed in the proximal tubule could be any number of different ions, as there are many different types of ions that are reabsorbed in this part of the kidney. Some of the most important ions that are typically reabsorbed in the proximal tubule include sodium, potassium, calcium, magnesium, and chloride ions.

These ions are important for maintaining proper fluid and electrolyte balance in the body, and the proximal tubule plays a key role in regulating their levels by selectively reabsorbing them from the filtrate and returning them to the bloodstream.

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calculate the h3o concentration of a 6.9x10^-4 m hcio3 solution

Answers

To calculate the H3O+ concentration of a 6.9x10^-4 M HCIO3 solution, we first need to write the balanced chemical equation for the dissociation of HCIO3 in water:

HCIO3 + H2O ⇌ H3O+ + CIO3-

We can see from this equation that one mole of HCIO3 produces one mole of H3O+ ions. Therefore, the concentration of H3O+ ions in the solution will be equal to the concentration of HCIO3:

[H3O+] = [HCIO3] = 6.9x10^-4 M

So the H3O+ concentration of a 6.9x10^-4 M HCIO3 solution is also 6.9x10^-4 M. To calculate the H3O+ concentration of your HClO3 solution.

1. First, we need to understand that HClO3 (chloric acid) is a strong acid. When it dissolves in water, it completely ionizes, producing H3O+ (hydronium ion) and ClO3- (chlorate ion). The ionization can be represented by the equation:

HClO3 + H2O → H3O+ + ClO3-

2. Given the concentration of HClO3 is 6.9 x 10^-4 M, and because HClO3 completely ionizes in water, the concentration of H3O+ will be equal to the initial concentration of HClO3.

So, the H3O+ concentration in the solution is 6.9 x 10^-4 M.

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the indicator bromocresol green is yellow below ph 3.8 and blue above ph 5.4 . when a drop of bromocresol green is added to a solution of 0.16 m naoh , what color will it turn? blue yellow

Answers

To determine the color of the solution when a drop of bromocresol green is added to a 0.16 M NaOH solution, we need to consider the pH range of the indicator.

Step 1: Calculate the pH of the NaOH solution. NaOH is a strong base, so it will dissociate completely. The formula to find pH is:

pH = -log10[H+]

Since it's a base, we need to find the pOH first:

pOH = -log10[OH-]

For 0.16 M NaOH, [OH-] = 0.16 M. So, the pOH is:

pOH = -log10(0.16) ≈ 0.80

Now, we can find the pH:

pH = 14 - pOH = 14 - 0.80 ≈ 13.2

Step 2: Compare the pH with the indicator's range. Bromocresol green is yellow below pH 3.8 and blue above pH 5.4. Since the pH of the NaOH solution is 13.2, it falls in the "blue" range.

In conclusion, when a drop of bromocresol green is added to a 0.16 M NaOH solution, the solution will turn blue.

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When a drop of bromocresol green is added to a solution of 0.16 M NaOH, it will turn blue.



NaOH is a strong base with a pH of around 14.

Therefore, it will completely dissociate in water to form hydroxide ions (OH-). When bromocresol green is added to this solution, the hydroxide ions will react with the indicator and shift the pH above 5.4, causing it to turn blue.
The addition of bromocresol green to a solution of 0.16 M NaOH will turn the solution blue due to the high pH of the solution.
Bromocresol green indicator will turn blue in a 0.16 M NaOH solution.
Bromocresol green changes color based on the pH of the solution it is in. It is yellow below pH 3.8 and blue above pH 5.4. Since NaOH is a strong base, it will raise the pH of the solution above 5.4, causing the bromocresol green to turn blue.


Hence,  In a 0.16 M NaOH solution, bromocresol green will turn blue due to the high pH.

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a solution of cacl2 in water forms a mixture that is 32.0% calcium chloride by mass. if the total mass of the mixture is 824.1 g, what masses of cacl2 and water were used?

Answers


The mass percentage of calcium chloride in the mixture is given as 32.0%. This means that 32.0% of the total mass of the mixture is due to calcium chloride. Let's assume that the mass of calcium chloride in the mixture is "x" and the mass of water is "y".

From the given information, we know that the total mass of the mixture is 824.1 g. Therefore, we can write:

x + y = 824.1    ----(1)

We also know that the mass percentage of calcium chloride in the mixture is 32.0%. This means that the mass of calcium chloride is 32.0% of the total mass of the mixture. Therefore, we can write:

x = 0.320 × 824.1 = 263.71 g

Substituting the value of "x" in equation (1), we get:

263.71 + y = 824.1

y = 824.1 - 263.71 = 560.39 g

Therefore, the mass of calcium chloride used is 263.71 g and the mass of water used is 560.39 g.


The given problem involves finding the masses of calcium chloride and water in a mixture where the mass percentage of calcium chloride is given. To solve the problem, we use the concept of mass percentage, which is the ratio of the mass of a solute to the total mass of the solution, expressed as a percentage.

We first assume the masses of calcium chloride and water in the mixture as "x" and "y", respectively. Then, we use the given mass percentage of calcium chloride to find the mass of calcium chloride in the mixture. Finally, we use the total mass of the mixture and the mass of calcium chloride to find the mass of water in the mixture.


The mass of calcium chloride and water in a mixture where the mass percentage of calcium chloride is given can be found using the concept of mass percentage. By assuming the masses of the solute and solvent, we can solve for the unknown masses using the total mass of the mixture and the mass percentage of the solute.

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a 28.6 mass % aqueous solution of iron(iii) chloride has a density of 1.280 g/ml. calculate the molality of the solution. give your answer to 2 decimal places.

Answers

The molality of a 28.6 mass % aqueous solution of iron(III) chloride with a density of 1.280 g/mL is 2.67 mol/kg.

To calculate the molality, first find the mass of the solution and the mass of the solute (iron(III) chloride) and solvent (water). Since the density is 1.280 g/mL, the mass of 100 mL of the solution is 128 g (100 mL x 1.280 g/mL). In this solution, 28.6% is iron(III) chloride, so the mass of the solute is 36.61 g (0.286 x 128 g), and the mass of the solvent (water) is 91.39 g (128 g - 36.61 g).
Next, determine the moles of iron(III) chloride in the solution. The molar mass of iron(III) chloride (FeCl3) is 162.2 g/mol. Thus, there are 0.225 moles of iron(III) chloride in the solution (36.61 g / 162.2 g/mol).
Finally, calculate the molality by dividing the moles of solute by the mass of the solvent (in kilograms). Molality = 0.225 mol / 0.09139 kg = 2.463 mol/kg, which can be rounded to 2.67 mol/kg to two decimal places.


Summary: The molality of a 28.6 mass % aqueous solution of iron(III) chloride with a density of 1.280 g/mL is 2.67 mol/kg.

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Identify the class of enzyme that catalyzes each of the following reactions.
a. adding water to a double bond
d. removing hydrogen atoms from a substrate splitting peptide bonds in proteins
c. converting a tertiary alcohol to a secondary alcohol

Answers

a.The class of enzyme that catalyzes adding water to a double bond is called a hydrolase. b.The class of enzyme that catalyzes removing hydrogen atoms from a substrate is called an oxidoreductase. c.The class of enzyme that catalyzes converting a tertiary alcohol to a secondary alcohol is called an isomerase.

The class of enzyme that catalyzes adding water to a double bond is called a hydrolase. More specifically, a hydrolase that catalyzes this type of reaction is called a hydration enzyme or a hydro-lyase.

b. The class of enzyme that catalyzes removing hydrogen atoms from a substrate is called an oxidoreductase. Specifically, an oxidoreductase that catalyzes the removal of hydrogen atoms is called a dehydrogenase.

c. The class of enzyme that catalyzes converting a tertiary alcohol to a secondary alcohol is called an isomerase. More specifically, an isomerase that catalyzes this type of reaction is called a secondary alcohol dehydrogenase.

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a student was reading about the gases in air. ozone helps protect earth from harmful ultraviolet rays that come from the sun. certain types of pollution created by humans have caused a hole in the ozone layer. this hole is over the south pole and could become larger if this type of pollution increases. which question should the student ask to determine if ozone is an elemental molecule?

Answers

Certain types of pollution created by humans have caused a hole in the ozone layer, this hole is over the south pole and could become larger if this type of pollution increases. A student reading about gases in air might ask, "Is ozone an elemental molecule that helps protect Earth from harmful ultraviolet rays?"

Ozone, composed of three oxygen atoms (O3), is a vital component of Earth's atmosphere, it serves as a shield against harmful ultraviolet (UV) radiation from the sun, protecting life on our planet. Unfortunately, human activities have led to the release of pollutants, such as chlorofluorocarbons (CFCs), which have contributed to the formation of a hole in the ozone layer, predominantly over the South Pole. This hole poses a significant risk to the environment and human health, as it allows more UV radiation to reach the Earth's surface.

If this type of pollution continues to increase, the hole may expand further, exacerbating the problem. To determine if ozone is an elemental molecule, the student should explore its chemical composition, focusing on the arrangement of oxygen atoms and the molecular structure of ozone as a whole.  A student reading about gases in air might ask, "Is ozone an elemental molecule that helps protect Earth from harmful ultraviolet rays?"

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water molecules have an end that is positive and an end that is negative. this causes water molecules to be cohesive. what is this type of molecule?

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This type of molecule is called a polar molecule. Water molecules have an end that is positive and an end that is negative due to the unequal sharing of electrons between oxygen and hydrogen atoms.

This results in the formation of partial positive and negative charges, making the molecule polar. The cohesive nature of water molecules is a result of the attraction between these opposite charges, leading to the formation of hydrogen bonds.

Water is an example of a polar molecule due to its cohesive properties and the presence of partial positive and negative charges on its ends.

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if you choose the electron to be the system (as opposed to an electron-nucleus system), its potential energy in the atom if you choose the electron to be the system (as opposed to an electron-nucleus system), its potential energy in the atom is positive. is negative. is zero. a single particle does not have potential energy. request answer provide feedback

Answers

The correct answer is: "If you choose the electron to be the system in an atom, its potential energy is negative."

If you choose the electron to be the system in an atom, its potential energy will be negative. This is because the electron is attracted to the positively charged nucleus, and the potential energy associated with this attraction is negative.

The negative potential energy of the electron in an atom arises from the electrostatic attraction between the negatively charged electron and the positively charged nucleus. As the electron moves closer to the nucleus, the electrostatic potential energy of the system decreases, resulting in a negative potential energy.

Therefore, the correct answer is: "If you choose the electron to be the system in an atom, its potential energy is negative."

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What is a property of 1.0M HCI but not a property of 1.0M CH3COOH?
A. HCI ionizes completely.
B.HCI has a pH less than 7.0.
C.HCI produces H3O* in a solution.
D. HCI establishes an equilibrium in a solution.

Answers

HCI ionizes completely. This is a property of 1.0M HCI but not a property of 1.0M CH[tex]_3[/tex]COOH.

Ionisation (or ionisation) being the process during which an atom or molecule gains or loses electrons, frequently in conjunction via other chemical changes, to acquire a charge that is either positive or negative. Ions are the electrically charged atoms or molecules that arise.

Ionisation can happen when an electron is lost as a result of collisions between subatomic particles, atoms, molecules, and ions, as well as electromagnetic radiation. HCI ionizes completely. This is a property of 1.0M HCI but not a property of 1.0M CH[tex]_3[/tex]COOH.

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1. Consider the structure of caffeine (re-draw it here), and answer the following questions from a structural perspective. a) Caffeine is an alkaloid and, as such, is weakly basic. Circle and label the basic atom or atoms (hints: consider the base in Experiment 4C, and consult the Derivative procedure on page 235). b) Identify (circle on your structure) and discuss two different structural features that would account for solubility in methylene chloride (hint: think intermolecular forces). c) Identify (circle on your structure) and discuss two different structural features that would account for solubility in water (hint: think intermolecular forces).

Answers

Here is the structure of caffeine:

    H   H        H

     \ /        /

  H---N---C---N

  |   ||  / \ |

H-C   |C     C-N

|     ||      |

N     CH     CH

|      |      |

H      CH3   CH3

       |

       NH2

a) The basic atoms in caffeine are the two nitrogen atoms in the five-membered ring. These nitrogen atoms have a lone pair of electrons that can act as a Lewis base and accept a proton to form a conjugate acid.

b) Two structural features that would account for solubility in methylene chloride are the presence of polar functional groups and the ability to participate in van der Waals interactions.

Caffeine contains polar functional groups, including amine, carbonyl, and hydroxyl groups, that can interact with the polar methylene chloride solvent through dipole-dipole interactions. Additionally, the nonpolar portions of caffeine can participate in van der Waals interactions with the nonpolar methylene chloride molecules.

c) Two structural features that would account for solubility in water are the presence of polar functional groups and the ability to form hydrogen bonds. Caffeine contains polar functional groups, including amine, carbonyl, and hydroxyl groups, that can interact with the polar water solvent through dipole-dipole interactions. Additionally, the amine and hydroxyl groups can form hydrogen bonds with water molecules, increasing the solubility of caffeine in water.

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what do the abbreviations such as phe, ile, ala, and gly in model 1 represent?

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Phe, Ile, Ala, and Gly are the abbreviations for the four amino acids phenylalanine, isoleucine, alanine, and glycine respectively. They are four of the twenty protein-forming amino acids that are commonly found in proteins and are used in the formation of peptide bonds.

What is amino acids?

Amino acids are organic compounds that are composed of amine (-NH2) and carboxylic acid (-COOH) functional groups, along with a side chain (R group) specific to each amino acid. The precise order of amino acids in a protein is determined by the genetic code and determines the structure and function of the protein. There are twenty different amino acids that are commonly found in proteins and are essential for life. They play a key role in many biological processes, including metabolism and cellular signaling. Amino acids are also important components of enzymes and can be used as a source of energy.

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an experimental plot of ln(k) vs. 1/t is obtained in lab for a reaction. the slope of the best-fit line for the graph is -4015 k. what is the value of the activation energy for the reaction in kj/mol?

Answers

The activation energy for the reaction is -33.392 kJ/mol.  The negative sign indicates that the reaction is exothermic, meaning it releases energy. To find the activation energy (Eₐ) for a reaction using the experimental plot of ㏑(k) versus 1/T, you can apply the Arrhenius equation. The equation is:

k = A[tex]e^{\frac{-E_{a} }{RT} }[/tex]

Taking the natural logarithm of both sides:
㏑(k) =㏑(A) - (Eₐ/RT)

Comparing this equation with the equation of a line (y = mx + b), where the slope (m) is -4015 K and the x-axis is 1/T, we can determine that the activation energy is related to the slope by:
Eₐ/R = -4015 K

The universal gas constant, R, has a value of 8.314 J/(mol*K). To find the activation energy (Ea) in J/mol, simply multiply R by the slope:
Eₐ = (-4015 K) * (8.314 J/(mol*K))
Eₐ = -33392.1 J/mol

Since we want the activation energy in kJ/mol, divide by 1000:
Eₐ = -33.392 kJ/mol

Therefore, the activation energy for the reaction is 33.392 kJ/mol.

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when a polar covalent bond is likely to form between two atoms that ?

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When a polar covalent bond is likely to form between two atoms that have different electronegativities.

Electronegativity is a measure of an atom's ability to attract electrons in a chemical bond. When two atoms with different electronegativities form a covalent bond, the electron pair is not shared equally between the two atoms. The atom with the higher electronegativity will attract the shared electrons more strongly, resulting in a partial negative charge on that atom and a partial positive charge on the other atom. This creates a polar covalent bond. The greater the difference in electronegativity between the two atoms, the more polar the bond will be.

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--The complete question is, When a polar covalent bond is likely to form between two atoms that __________.--

a 30 ml sample of 0.15m hydrazine (kb =1.3x10-6) is being titrated with 0.2m hclo4. what is the ph after adding 11.25 ml of acid?

Answers

The pH of the solution after adding 11.25 mL of 0.2 M HClO₄ is 10.59

Hydrazine (N2H4) is a weak base that reacts with HClO4 (perchloric acid) in a neutralization reaction. The balanced chemical equation for the reaction is:

N₂H₄ (aq) + HClO₄ (aq) → N₂H₅+ ClO₄- (aq)

The Kb value for hydrazine is given as 1.3 × 10^-6.

To solve the problem, we need to determine the initial moles of hydrazine in the solution, and the moles of hydrazine and hydrazinium ion (N2H₅+) remaining after 11.25 mL of 0.2 M HClO₄ is added.

First, calculate the initial moles of hydrazine:

moles of N₂H₄ = (0.15 mol/L) × (0.03 L) = 0.0045 mol

Next, calculate the moles of HClO₄ added:

moles of HClO₄ = (0.2 mol/L) × (0.01125 L) = 0.00225 mol

Since the reaction between N₂H₄ and HClO₄ is a 1:1 reaction, the number of moles of N₂H₄ that reacts with the HClO₄ is also 0.00225 mol.

The remaining moles of N₂H₄ in the solution is:

moles of N₂H₄ remaining = 0.0045 mol - 0.00225 mol = 0.00225 mol

The moles of N₂H₅+ formed is equal to the moles of HClO₄ added, which is 0.00225 mol.

To calculate the concentration of N₂H₄ and N₂H₅+ in the solution, we need to use the equation for Kb:

Kb = [N2H₅+][OH-] / [N2H]

Since the concentration of OH- is equal to the concentration of H+ in a neutralization reaction, and we want to find the pH of the solution, we can use the equation:

Kw = [H+][OH-] = 1.0 × 10^-14

At equilibrium, the concentration of N₂H₄ is equal to the initial concentration minus the amount that reacted with HClO₄:

[N₂H₄] = (0.15 mol/L) × (0.03 L - 0.01125 L) = 0.002925 mol/L

The concentration of N₂H₅+ is equal to the moles of HClO₄ added divided by the total volume:

[N₂H₅+] = (0.00225 mol) / (0.03 L + 0.01125 L) = 0.05556 mol/L

Substituting these values into the equation for Kb:

1.3 × 10^-6 = (0.05556 mol/L)([H+]) / (0.002925 mol/L)

Solving for [H+] gives:

[H+] = 2.57 × 10^-11 M

Therefore, the pH of the solution after adding 11.25 mL of 0.2 M HClO₄ is:

pH = -log[H+]

pH = -log(2.57 × 10^-11)

pH = 10.59

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What volume of H2 is produced at 315 K and 1.25 atm when 3.50 grams of Zn reacts with excess HCl?
Zn(s) + 2 HCl(aq) → H2(g) + ZnCl2(aq)

Answers

The volume of hydrogen gas produced at 315 K and 1.25 atm when 3.50 grams of zinc reacts with excess HCl is 1.16 L.

The balanced chemical equation for the reaction between zinc and hydrochloric acid is:

[tex]Zn(s) + 2 HCl(aq) → H2(g) + ZnCl2(aq)[/tex]

We need to find the volume of hydrogen gas produced at 315 K and 1.25 atm when 3.50 grams of zinc reacts with excess HCl.

First, we need to determine the number of moles of zinc used in the reaction. The molar mass of zinc is 65.38 g/mol, so:

n(Zn) = 3.50 g / 65.38 g/mol = 0.0536 mol

Since 1 mole of zinc reacts with 1 mole of hydrogen gas, the number of moles of hydrogen gas produced is also 0.0536 mol.

Using the ideal gas law, PV = nRT, we can calculate the volume of hydrogen gas produced. We are given the temperature (315 K) and the pressure (1.25 atm), and the gas constant R is 0.0821 L·atm/(mol·K).

Substituting the values into the equation, we get:

V = (nRT) / P

V = (0.0536 mol) x (0.0821 L·atm/(mol·K)) x (315 K) / (1.25 atm)

V = 1.16 L

Therefore, the volume of hydrogen gas produced at 315 K and 1.25 atm when 3.50 grams of zinc reacts with excess HCl is 1.16 L.

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a 5000-ci 60co source is used for cancer therapy. after how many years does its activity fall below 3.73x 103 ci? the half-life for 60co is 5.2714 years. your answer should be a number with two decimal points.

Answers

The 5000-ci 60co source used for cancer therapy will fall below 3.73x 103 ci after approximately 14.35 years.

The half-life of 60co is 5.2714 years, which means that the activity of the source will decrease by half every 5.2714 years. To calculate how long it takes for the activity to fall below 3.73x 103 ci, we can use the following formula:

A = A0 * (1/2)^(t/T)

where A is the final activity (3.73x 103 ci), A0 is the initial activity (5000 ci), t is the time elapsed, and T is the half-life (5.2714 years).

Plugging in the values we have:

3.73x 103 = 5000 * (1/2)^(t/5.2714)

Dividing both sides by 5000 and taking the logarithm of both sides, we get:

log(3.73x 103/5000) = (t/5.2714) * log(1/2)

Solving for t, we get:

t = (log(3.73x 103/5000) / log(1/2)) * 5.2714

t ≈ 14.35 years

Therefore, the activity of the 5000-ci 60co source used for cancer therapy will fall below 3.73x 103 ci after approximately 14.35 years.

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at stp, what is the volume of 1.00 mole of carbon dioxide? select one: a. 1.00 l b. 44.0 l c. 273 l d. 22.4 l e. 12.2 l

Answers

At standard temperature, pressure, or STP the volume of 1.00 mole of carbon dioxide is 22.4 L. Option D is the correct answer

According to the Ideal Gas Law,

PV = nRT,

Where :

P = Pressure

V = volume

n = number of moles

R = gas constant

T = temperature in Kelvin.

The volume of one mole of that substance is known as the molar volume. The volume is known as the molar volume of an ideal gas at STP.

At STP (standard temperature and pressure),

P = 1 atm

T = 273 K

R = 0.08206 L atm [tex]mol^-1 K^-1.[/tex]

n = 1.00

Substuting the values in the Ideal Gas Law equation we get:

PV = nRT

V= n R T / P

V = 1.00 ×  0.08206 ×  273 / 1

V = 22.4 l

Therefore, the molar volume of 1.00 mole of carbon dioxide at STP is 22.4 L.

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