If the boiling point of ethanol went up 6. 8 degrees, how many grams of PbCl4 were added to 2700 grams of ethanol? round to nearest tenth

Answers

Answer 1

Approximately 5272.2 grams of PbCl4 were added to 2700 grams of ethanol to increase the boiling point by 6.8 degrees.

To determine the grams of PbCl4 added to 2700 grams of ethanol, causing the boiling point to increase by 6.8 degrees, we will use the molality-based boiling point elevation formula, which is:

ΔTb = Kb * m

Here, ΔTb is the change in boiling point (6.8 degrees), Kb is the molal boiling point elevation constant of ethanol (1.22 °C kg/mol), and m is the molality (moles of solute per kg of solvent).

First, we need to find the molality (m) of the solution:

6.8 = 1.22 * m
m = 6.8 / 1.22 ≈ 5.57 mol/kg

Now, we can calculate the moles of PbCl4 added to the ethanol:

5.57 mol/kg * (2700 g / 1000 g/kg) ≈ 15.03 mol of PbCl4

Next, we need to find the molar mass of PbCl4:

Pb: 207.2 g/mol
Cl: 35.45 g/mol

Molar mass of PbCl4 = 207.2 + (4 * 35.45) ≈ 350.6 g/mol

Finally, we can calculate the grams of PbCl4 added to the ethanol:

15.03 mol * 350.6 g/mol ≈ 5272.2 g

Therefore, approximately 5272.2 grams of PbCl4 were added to 2700 grams of ethanol to increase the boiling point by 6.8 degrees.

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Related Questions

Write the following chemical reactions and balance:



Potassium reacts with sodium oxide to produce potassium oxide and sodium

Answers

The chemical reaction between potassium and sodium oxide results in the formation of potassium oxide and sodium. The balanced equation for this reaction is:
2K + Na₂O -> K₂O + 2Na


This reaction is an example of a displacement reaction, where a more reactive element (potassium) displaces a less reactive element (sodium) from its compound (sodium oxide). The displacement occurs because potassium has a greater tendency to lose electrons and form cations compared to sodium.

Potassium oxide is an important chemical compound with many industrial applications, including in the production of glass, ceramics, and fertilizers. It is also used as a drying agent and catalyst in organic reactions.

Sodium, on the other hand, is a highly reactive metal that is commonly found in compounds such as sodium chloride (table salt) and sodium hydroxide (lye). It is an essential element for many biological processes, including nerve and muscle function.

Overall, this chemical reaction between potassium and sodium oxide is important because it highlights the reactivity of these elements and the formation of useful compounds such as potassium oxide. It also emphasizes the importance of balancing chemical equations to ensure that the reactants and products are in the correct proportions.

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For each phase change, determine the sign of Δ
H and Δ
S. Place the appropriate items to their respective bins.
a. Sublimation
b. Freezing
c. Boiling
d. Deposition
e. Melting
f. Condensation

Answers

The sign of ΔH and ΔS can be determined by looking at the direction of the phase change and the molecular behavior of the substance.

a. Sublimation:
ΔH: Positive (endothermic process, energy is absorbed)
ΔS: Positive (increase in entropy, as a solid transitions to a gas)

b. Freezing:
ΔH: Negative (exothermic process, energy is released)
ΔS: Negative (decrease in entropy, as a liquid becomes a solid)

c. Boiling:
ΔH: Positive (endothermic process, energy is absorbed)
ΔS: Positive (increase in entropy, as a liquid transitions to a gas)

d. Deposition:
ΔH: Negative (exothermic process, energy is released)
ΔS: Negative (decrease in entropy, as a gas becomes a solid)

e. Melting:
ΔH: Positive (endothermic process, energy is absorbed)
ΔS: Positive (increase in entropy, as a solid transitions to a liquid)

f. Condensation:
ΔH: Negative (exothermic process, energy is released)
ΔS: Negative (decrease in entropy, as a gas becomes a liquid)

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WILL OFFER BRAINLIEST



Scenario 1: The pitcher throws a fastball down the middle of the plate. The batter takes


a mighty swing and totally misses the ball. The umpire yells, "Strike one!"


Scenario 2: The pitcher throws an off-speed pitch and the batter checks his swing. The


batter just barely makes contact with the ball and it dribbles down in front of the batter's


feet into foul territory. The umpire yells, "Foul ball; strike two!"



Scenario 3: The pitcher throws a curve ball that looks like it might catch the outside


corner of the plate. The batter swings with all his strength, but the bat grazes the


underside of the ball and the ball skews off to the right, flying into the crowd. The umpire


yells, "Foul ball, still two strikes!"



Scenario 4: The pitcher throws another fastball down the middle of the plate. The batter


swings and wallops the ball high into the air and the ball clears the center field wall that


reads 410 feet. The ump yells, "Homerun!"


In which scenario did a chemical reaction occur between reactant A and B?





Question 1 options:



1




2




3




4

Answers

They are all describing events that can occur in a baseball game, where a pitcher is throwing a ball to a batter and an umpire is calling the result of the play.

None of the scenarios involve a chemical reaction between reactant A and B. They all describe events in a baseball game. A chemical reaction involves a change in the chemical composition of one or more substances, resulting in the formation of new substances with different properties. In the scenarios described, there is no mention of any substances undergoing a chemical change, so no chemical reaction is occurring.

In all the scenarios described, there is no indication of any chemical reaction occurring between any reactants. All the scenarios are related to the sport of baseball, in which a pitcher throws a ball (the reactant) towards the batter who tries to hit the ball with a bat. The umpire is responsible for making calls, determining if the ball is a strike, a foul ball, or a home run based on the specific rules of the game.

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A 3. 00 g mass of compound X was added to 50. 0 g of water


and it is found that the freezing point has decreased by 1. 25 °C.


What is the molar mass of X if it has a van't Hoff factor of 3?


g/mol (Kf of water = 1. 86 K. Kg/mol)


Your answer should be rounded to three significant figures. Do not include units


in your answer.

Answers

When a 3.00 g mass of compound X is added to 50.0 g of water, a new mixture is formed. This mixture is a combination of two substances, the compound X and water. A compound is a substance formed when two or more different elements combine chemically in a fixed ratio. In this case, compound X is the result of the combination of two or more elements.

The addition of compound X to water results in the formation of a solution. A solution is a homogeneous mixture of two or more substances, in which the components are uniformly distributed. The compound X dissolves in the water to form a homogeneous mixture.

The mass of the resulting mixture is the sum of the mass of compound X and the mass of water. Therefore, the mass of the resulting mixture is 53.00 g (3.00 g + 50.00 g).

Water is a common solvent for many compounds, including compound X. Water molecules have a polar nature, which enables them to dissolve polar and ionic compounds, such as salts and acids. The dissolution of compound X in water is a result of the polar nature of water molecules.

In summary, the addition of a 3.00 g mass of compound X to 50.00 g of water results in the formation of a homogeneous mixture. The resulting mixture has a mass of 53.00 g, which is the sum of the mass of compound X and the mass of water. Water is a common solvent for many compounds, including compound X, and its polar nature enables it to dissolve many polar and ionic compounds.

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What is the percent of water in plaster of paris (caso4 · ½h2o) rounded to the nearest tenth?

Answers

The percent of water in Plaster of Paris is 6.2% (approx.) rounded to the nearest tenth.

It can be easily calculated using the formula:

% of water = (mass of water / total mass of compound) x 100

In this case, the molar mass of CaSO₄ · 1/2H₂O is:

1 mol Ca = 40.08 g

1 mol S = 32.06 g

4 mol O = 4 x 16.00 g = 64.00 g

1/2 mol H₂O = 1/2 x 18.02 g = 9.01 g

Therefore, the total molar mass of CaSO₄ · 1/2H₂O is:

40.08 + 32.06 + 64.00 + 9.01 = 145.15 g/mol

The mass of water in one mole of CaSO₄ · 1/2H₂O is 9.01 g, so the percent of water in plaster of Paris is:

% of water = (9.01 g / 145.15 g) x 100 = 6.21%

Rounding this to the nearest tenth gives:

% of water ≈ 6.2%

Therefore, the percent of water in plaster of Paris is approximately 6.2%.

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. ethanol (ch3ch2oh) burns in air to generate carbon dioxide and water, a. write a balanced equation to show this reaction b. determine the volume of air (not oxygen) in liters at 35 degrees c and 790 mm hg required to burn 250 grams of ethanol.

Answers

(a). [tex]C_2H_5OH + 3O_2[/tex] → [tex]2CO_2 + 3H_2O[/tex]

(b). The volume of air required to burn 250 grams of ethanol at 35°C and 790 mmHg is approximately 6.63 liters.

a. The balanced equation for the combustion of ethanol ([tex]C_2H_5OH[/tex]) in air to generate carbon dioxide ([tex]CO_2[/tex]) and water ([tex]H_2O[/tex]) is:

[tex]C_2H_5OH + 3O_2[/tex] → [tex]2CO_2 + 3H_2O[/tex]

b. We first need to calculate the number of moles of ethanol used in the reaction. The molar mass of ethanol is:

46.07 g/mol

Therefore, the number of moles of ethanol used is:

[tex]n = m/M = 250 g / 46.07 g/mol = 5.42 mol[/tex]

Therefore, the number of moles of oxygen required to burn 5.42 moles of ethanol is:

[tex]3n = 3 * 5.42 mol = 16.26 mol[/tex]

The ideal gas law is:

PV = nRT

V = nRT/P

Substituting the values, we get:

[tex]V = (16.26 mol)(0.08206 L.atm/(mol.K))(308.15 K) / 790 mmHg[/tex]

Simplifying, we get:

V = 6.63 L

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C (g) + e (g) <-- --> 2 w (g)
initially, there are 3.5 moles of w placed in a 2.5 l evacuated container. equilibrium is allowed to establish and the value of k = 2.34 e-5 for the reaction under current conditions. determine the concentration of e at equilibrium.

a. [e] = 8.352 e -6
b. [e] = 0.00578
c. [e] = 0.00289
d. cannot solve using 5% approximation rule

Answers

The answer is (d) cannot solve using 5% approximation rule.

The balanced equation for the reaction is:

C(g) + e(g) ⇌ 2W(g)

The equilibrium constant expression is given by:

Kc = [W]^2 / [C][e]

At equilibrium, let's assume that x moles of C react with x moles of e to produce 2x moles of W. Therefore, the equilibrium concentrations are:

[C] = (3.5 - x) mol/L

[e] = (x) mol/L

[W] = (2x) mol/L

Substituting these values :

Kc = [(2x)^2] / [(3.5 - x)(x)]

Simplifying this expression:

4x^2 + 2.34x - 8.19 = 0

Solving this quadratic equation :

x = (-2.34 ± sqrt(2.34^2 - 4(4)(-8.19))) / (2(4))

x = (-2.34 ± 3.64) / 8

We can ignore the negative root as it does not make physical sense. Therefore:

x = 0.4575 mol/L

Thus, the concentration of e at equilibrium is:

[e] = 0.4575 mol/L

Therefore, the answer is (d) cannot solve using 5% approximation rule.

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How many kJ of heat would be released when 250g of water freezes?
A. 565 kJ
B. -83.5 kJ
C. 83.5 kJ
D. -565 kJ

Answers

The total KJ of heat that would be released is B. -83.5 kJ

How do we solve for the KJ of heat that would be released?

When a something in a liquid or semi-liquid freezes, it undergoes a phase change to a solid state, and this process involves a release of heat.

For example, when water freezes, it releases 333.5 kJ of heat per kg of water that freezes

To be able to calculate the heat released, we need to use the formula:

q = m x Lf

But first, we must convert grams to kg

m = 250 g x (1 kg / 1000 g) = 0.25 kg

q = 0.25 kg x 333.5 kJ/kg

q = 83.375 kJ

The answer is turned to the negative since heat is released.

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Is the solvation of borax in water an exothermic or endothermic process?.

Answers

The solvation of borax in water is an exothermic process. This means that energy is released when borax dissolves in water.

This can be seen in the fact that the temperature of the solution increases as borax dissolves in water, indicating that energy is being released into the surroundings.

The reason for this exothermic behavior is that the solvation process involves the breaking of the ionic bonds between borax molecules and the formation of new bonds between the borax ions and water molecules.

The energy released in the formation of these new bonds is greater than the energy required to break the existing bonds, resulting in a net release of energy.

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Calculate the energy of rogue wave of this amplitude. 15 meters

Answers

The energy of a rogue wave with an amplitude of 15 meters is 2,207,250 joules.

To do this, we need to use the following terms: potential energy, kinetic energy, and wave energy. Here's the step-by-step explanation:

1. Determine the amplitude (A) of the rogue wave: In this case, the amplitude is given as 15 meters.

2. Calculate the potential energy (PE):

The potential energy of a wave is given by the formula PE = (1/2)ρgA², where ρ is the density of water (approximately 1000 kg/m³), g is the acceleration due to gravity (9.81 m/s²), and A is the amplitude. Plugging in the values, we get PE = (1/2) * 1000 * 9.81 * (15)² = 1,103,625 J (joules).

3. Calculate the kinetic energy (KE): The kinetic energy of a wave is equal to its potential energy, so KE = 1,103,625 J.

4. Calculate the total wave energy (E): The total energy of a rogue wave is the sum of its potential and kinetic energy, E = PE + KE = 1,103,625 + 1,103,625 = 2,207,250 J.

So, the energy of a rogue wave with an amplitude of 15 meters is 2,207,250 joules.

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you perform the first test, and your results are the following: 3 of the 10 ml tubes are positive, 2 of the 1 ml tubes are positive, and 1 of the 0.1 ml tubes are positive. what is the mpn for this sample?

Answers

The most probable number (MPN) for this sample can be calculated using the MPN table. Based on the results provided, the MPN for this sample is estimated to be 48 per 100 mL.

The MPN method is a statistical approach used to estimate the concentration of microorganisms in a sample. It involves inoculating multiple replicate tubes with different volumes of the sample and observing growth after a specified period of time. The results are then used to estimate the most probable number of microorganisms in the original sample.

In this case, the results of the test indicate that 3 out of 10 ml tubes, 2 out of 1 ml tubes, and 1 out of 0.1 ml tubes were positive for the presence of microorganisms. Based on these results, the MPN for the sample can be estimated using the MPN table. Using the MPN table, we can determine that the number of positive tubes corresponds to a probability of 0.048. Therefore, the MPN for this sample is estimated to be 48 per 100 mL.

This means that there are likely 48 microorganisms present in every 100 mL of the sample. It's worth noting that the MPN method provides an estimate of the concentration of microorganisms in a sample and is subject to some degree of uncertainty. However, it is a widely used method for assessing the microbiological quality of water and other environmental samples.

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How many ions would form from the dissociation of ammonium dichromate (nh4)2cr2o7?

Answers

One formula unit of ammonium dichromate, three ions would form upon dissociation in water.

When ammonium dichromate (NH₄)₂Cr₂O₇ dissociates in water, it breaks down into two ammonium ions (NH₄⁺) and one dichromate ion (Cr₂O₇²⁻). The dissociation is represented by the following chemical equation:

(NH₄)2Cr₂O₇ → 2NH₄⁺ + Cr₂O₇²⁻

Therefore, a total of three ions would be formed from the dissociation of ammonium dichromate in water. The two ammonium ions would have a positive charge, while the dichromate ion would have a negative charge.

These ions can interact with other ions in the solution and participate in various chemical reactions. The dissociation of ammonium dichromate is important in various industrial processes, as well as in chemical education for demonstrating chemical reactions and properties of ions.

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How valence electrons determine an atom's chemical properties including reactivity

Answers

Valence electrons are the outermost electrons of an atom, and they play a significant role in determining the atom's chemical properties, including its reactivity.

Valence electrons are responsible for the formation of chemical bonds between atoms, which are essential for the creation of molecules and compounds.

An atom's valence electrons determine its ability to form bonds and interact with other atoms. The number of valence electrons an atom possesses corresponds to its position on the periodic table. For example, elements in the same group of the periodic table have the same number of valence electrons and exhibit similar chemical properties.

Atoms with a full valence shell, such as noble gases, are stable and unreactive because they have no need to form bonds with other atoms. On the other hand, atoms with incomplete valence shells are more reactive and have a strong tendency to bond with other atoms to achieve a full valence shell.

For example, halogens have seven valence electrons and are highly reactive because they only need one more electron to achieve a full valence shell.

The reactivity of an atom depends on the number of valence electrons it has and its ability to form chemical bonds. Atoms with one or two valence electrons tend to lose them to form positive ions, while atoms with five, six, or seven valence electrons tend to gain electrons to form negative ions.

This behavior is due to the fact that a full valence shell is more stable than an incomplete one.

In conclusion, valence electrons are crucial in determining an atom's chemical properties, including its reactivity. The number of valence electrons an atom possesses determines its position in the periodic table and its ability to form chemical bonds with other atoms, which ultimately affects its behavior in chemical reactions.

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The central atom of a molecule that exceeds the octet rule must come from period ______ or below.

Answers

The central atom of a molecule that exceeds the octet rule must come from period 3 or below.

This is because elements in these periods have empty d-orbitals available for hybridization, which allows them to form more than four covalent bonds and exceed the octet rule.

Examples of such elements include sulfur (S), phosphorus (P), and chlorine (Cl). Elements in higher periods, such as xenon (Xe) and radon (Rn), can also exceed the octet rule but are relatively rare in organic chemistry.

It is important to note that not all atoms follow the octet rule, and some can have fewer than eight electrons in their valence shell due to their unique electronic configurations.

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What is the molality of a solution containing 4. 0 grams


of NaCl dissolved in 3000 grams of water?

Answers

0.0228 mol/kg is the molality of a solution containing 4. 0 grams of NaCl dissolved in 3000 grams of water.

To calculate the molality of a solution, we need to first convert the mass of the solute (NaCl) to moles and then divide by the mass of the solvent (water) in kilograms.

The molar mass of NaCl is 58.44 g/mol, so 4.0 grams of NaCl is equal to 0.0684 moles of NaCl.

The mass of water is 3000 grams or 3.0 kg.

Therefore, the molality of the solution is:

molality = moles of solute / mass of solvent in kg

molality = 0.0684 moles / 3.0 kg

molality = 0.0228 mol/kg

So the molality of the solution is 0.0228 mol/kg.

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Find the mass of a sample of water if its temperature dropped 24. 8°C


when it lost 870 J of heat. Hint. Which formula are you going to use? See


interactive PPT. Don't forget the unit. Show your work.




How much heat is required to warm a 135g cup of water from 15 °C to


35°C? Hint: the water is in a cup so what state of matter and specific heat?


Show your work.

Answers

1.  The mass of the water sample is approximately 8.77 grams.

2. Approximately 11,322 Joules of heat are required to warm a 135g cup of water from 15°C to 35°C.


We're given the values:
Q = -870 J (lost heat, so negative value)
ΔT = -24.8°C (temperature dropped)
c = 4.18 J/(g°C) (specific heat capacity of water)

Rearrange the formula to solve for mass:
m = Q / (cΔT)

Plug in the values:
m = -870 / (4.18 × -24.8)
m ≈ 8.77 g


The mass of the water sample is 8.77 grams.


We're given the values:
m = 135 g
ΔT = 35°C - 15°C = 20°C
c = 4.18 J/(g°C) (specific heat capacity of water)

Now, use the formula Q = mcΔT to find the heat required:
Q = 135 × 4.18 × 20
Q ≈ 11322 J

Approximately 11,322 Joules of heat are required to warm a 135g cup of water from 15°C to 35°C.

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What are two types of matter that are considered pure?.

Answers

Answer:   Elements and compounds are both examples of pure substances.

Explanation:

A sample of 0. 0400 mol potassium hydroxide, KOH was dissolved in water to yield 20. 0 mL of solution. What is the molarity of the solution?



0. 4M


250M


2. 0M


2. 00x 10-3M

Answers

The molarity of the solution is 2.0 M, option C is correct.

The molarity of a solution is defined as the number of moles of solute per liter of solution. In this problem, we are given the amount of solute, which is 0.0400 mol of potassium hydroxide, KOH, and the volume of the solution, which is 20.0 mL.

To find the molarity, we need to convert the volume to liters by dividing by 1000:

20.0 mL ÷ 1000 = 0.0200 L

Now we can use the formula for molarity:

Molarity = moles of solute ÷ liters of solution

Molarity = 0.0400 mol ÷ 0.0200 L = 2.00 M

Hence, option C is correct.

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The complete question is:

A sample of 0. 0400 mol potassium hydroxide, KOH was dissolved in water to yield 20. 0 mL of solution. What is the molarity of the solution?

A) 0.4M

B) 250M

C) 2.0M

D) 2.00x 10⁻³M

How many grams of oxygen would be needed to completely react with 254 g of tristearin, C57H110O6, by the following reaction:


2C57H110O6 + 163O2 114CO2 + 110H2O

Answers

You would need 740.1 grams of oxygen to completely react with 254 grams of tristearin, C₅₇H₁₁₀O₆, in the given reaction.

To find out how many grams of oxygen are needed to completely react with 254 g of tristearin, C₅₇H₁₁₀O₆, in the given reaction, follow these steps:

1. Calculate the molar mass of tristearin (C₅₇H₁₁₀O₆) and oxygen (O₂).
2. Convert grams of tristearin to moles using its molar mass.
3. Use stoichiometry to find the moles of oxygen needed.
4. Convert moles of oxygen to grams using its molar mass.

Molar mass of tristearin: (57 * 12.01) + (110 * 1.01) + (6 * 16.00) = 891.62 g/mol
Moles of tristearin: 254 g / 891.62 g/mol = 0.285 moles
Moles of oxygen needed: 0.285 moles * (163 O₂ / 2 C₅₇H₁₁₀O₆) = 23.16 moles
Molar mass of O₂: 2 * 16.00 = 32.00 g/mol
Grams of oxygen needed: 23.16 moles * 32.00 g/mol = 740.1 g

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Why does LiH have the largest hydrogen? ( here's the image) http://imgur.com/a/dAVX7
A)A potential map marks the edges of the molecules electron cloud. The electron cloud is smallest around the H in LiH, because that H has less electrons around it than the Hs in the other molecules.
B)A potential map marks the edges of the molecules electron cloud. The electron cloud is smallest around the H in LiH, because that H has more electrons around it than the Hs in the other molecules.
C)A potential map marks the edges of the molecules electron cloud. The electron cloud is largest around the H in LiH, because that H has more electrons around it than the Hs in the other molecules.
D)A potential map marks the edges of the molecules electron cloud. The electron cloud is largest around the H in LiH, because that H has less electrons around it than the Hs in the other molecules.
Part B) Which compound has the hydrogen that would be most apt to attract a negatively charged molecule?
H2
LiH
HF

Answers

The correct answer to the first question is A) A potential map marks the edges of the molecules electron cloud. The electron cloud is smallest around the H in LiH, because that H has less electrons around it than the Hs in the other molecules.

This is because LiH is an ionic compound, and the electron from the hydrogen atom in LiH is pulled towards the Li+ ion, making the hydrogen atom partially positively charged and the Li+ ion partially negatively charged.

As a result, the electron cloud around the hydrogen atom is smaller compared to the other molecules.

The correct answer to the second question is HF. This is because fluorine is the most electronegative element among the given options, and the hydrogen atom in HF is partially positively charged.

As a result, it can attract a negatively charged molecule more strongly compared to the other options.

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If your end product is 200. 0 g KMnO4 how much KOH did you start with?

Answers

Both Scientist A and Scientist B achieved same yield of KMnO₄, indicating they obtained the maximum possible amount based on the starting materials and reaction conditions. The percent yield for Scientist A is approximately 100% and for Scientist B, it is also approximately 100%

To solve these problems, let's go step by step:

1. If the end product is 1.5 moles of KMnO₄, according to the balanced chemical equation:

2 MnO₂ + 4 KOH + O₂ -> 2 KMnO₄ + 2 KOH + H₂

We can see that the stoichiometric ratio between KMnO₄ and MnO₂ is 2:2. Therefore, the number of moles of MnO₂ used in the reaction would be 1.5 moles.

2. To determine how much KOH was used when the end product is 200.0 g of KMnO₄:

Again, using the balanced chemical equation, we can see that the stoichiometric ratio between KMnO₄ and KOH is 2:4. Therefore, the number of moles of KOH used would be twice the number of moles of KMnO₄.

Given that the molar mass of KMnO₄ is approximately 158.034 g/mol, we can calculate the number of moles of KMnO₄:

moles of KMnO₄ = mass of KMnO₄ / molar mass of KMnO₄

moles of KMnO₄ = 200.0 g / 158.034 g/mol

moles of KMnO₄ ≈ 1.265 mol

Since the stoichiometric ratio is 2:4, the number of moles of KOH would be twice that:

moles of KOH = 2 * moles of KMnO₄

moles of KOH = 2 * 1.265 mol

moles of KOH ≈ 2.53 mol

3. To determine the theoretical yield of potassium permanganate when starting with 500 g of MnO₂:

Again, using the balanced chemical equation, we can see that the stoichiometric ratio between MnO₂ and KMnO₄ is 2:2. Therefore, the molar ratio is 1:1.

Given that the molar mass of MnO₂ is approximately 86.9375 g/mol, we can calculate the number of moles of MnO₂:

moles of MnO₂ = mass of MnO₂ / molar mass of MnO₂

moles of MnO₂ = 500 g / 86.9375 g/mol

moles of MnO₂ ≈ 5.75 mol

Since the stoichiometric ratio is 1:1, the theoretical yield of KMnO₄ would be equal to the number of moles of MnO₂:

Theoretical yield of KMnO₄ = moles of MnO₂

Theoretical yield of KMnO₄ ≈ 5.75 mol

4. To calculate the percent yield for Scientist A and Scientist B, we need the actual yields of KMnO₄ produced by each scientist. Let's assume Scientist A produces 83.67 g of KMnO₄ and Scientist B produces 81.35 g of KMnO₄.

Percent yield = (actual yield / theoretical yield) * 100

Percent yield for Scientist A = (83.67 g / (2 * 83.67 g)) * 100 ≈ 100%

Percent yield for Scientist B = (81.35 g / (2 * 81.35 g)) * 100 ≈ 100%

5. Both Scientist A and Scientist B achieved 100% yield, indicating that they obtained the maximum possible amount of KMnO₄ based on the starting amount

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Complete question :

If your end product is 1.5 moles of KMnO4. how many moles of manganese oxide were used in the reaction? The equation for the production of potassium permanganate is as follows: 2 MnO2+ 4 KOH + O2- 2 KMnO4 + 2 KOH + H2 You must show all work to receive full credit If your end product is 200.0 g KMnO4 how much KOH did you start with? The equation for the production of potassium permanganate is as follows: 2 MnO2+ 4 KOH + O2+ 2 KMnO4 + 2 KOH + H2 You must show all work to receive full credit. A company manufacturing KMnO, wants to obtain the highest yield possible Two of their research scientists are working on a technique to increase the yield Both scientists started with 500 g of manganese oxide What is the theoretical yield of potassium permanganate when starting with 500 g MnO2? The equation for the production of potassium permanganate is as follows 2 MnO2+ 4 KOH + 02 - 2 KMnO, +2 KOH + H2 You must show all work to receive tul credit Scientist A produces 83.67 g KMnO4 while Scientist B produces 81.35 g KMnO4 What is the percent yield for Scientist A? What is the percent yield for Scientist B? You must show all work to receive full credit. The equation for the production of potassium permanganate is as follows: 2 MnO2+ 4 KOH + O2-2 KMnO4+2 KOH + H2 of the two scientists' results, whose would you present to the boss as an example of the product your company manufacturers? Justify your answer with evidence and scientific reasoning BIETE

If 78.2 grams of oxygen (o2) react with plenty of copper cu, how many moles of
copper (ii) oxide (cuo) will be produced?

Answers

78.2 grams of oxygen (O₂) reacted with copper (Cu) to produce copper (II) oxide (CuO). When the oxygen reacts with 4.88 moles of copper, it will produce 9.76 moles of copper oxide (CuO).

The balanced chemical equation for the reaction between oxygen and copper is:

2Cu + O₂ → 2CuO

From the equation, we see that 1 mole of O₂ reacts with 2 moles of Cu to produce 2 moles of CuO.

First, we need to convert the given mass of O₂ to moles:

78.2 g O₂ × (1 mol O₂/32.00 g O₂) = 2.44 mol O₂

According to the stoichiometry of the balanced equation, 2 moles of Cu are required for every 1 mole of O₂ reacted. Therefore, the moles of Cu needed can be calculated as:

2.44 mol O₂ × (2 mol Cu/1 mol O₂) = 4.88 mol Cu

So, 4.88 moles of Cu will react with 78.2 grams of O₂ to produce 9.76 moles of CuO.

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a generic salt, ab3, has a molar mass of 305 g/mol and a solubility of 4.30 g/l at 25 °c. ab3(s)↽−−⇀a3 (aq) 3b−(aq) what is the ksp of this salt at 25 °c?

Answers

The dissociation reaction for the salt AB3 is:

AB3(s) ↔ A3+(aq) + 3B-(aq)

Let's assume the solubility of AB3 in water at 25 °C is x mol/L. Then, the equilibrium concentrations of A3+ and B- can be expressed as x and 3x, respectively.

The Ksp expression for AB3 is:

Ksp = [A3+][B-]^3 = x(3x)^3 = 27x^4

The molar mass of AB3 is 305 g/mol, so the number of moles in 4.30 g (the solubility) is:

n = 4.30 g / 305 g/mol = 0.0141 mol/L

Therefore, the solubility of AB3 at 25 °C is:

x = 0.0141 mol/L

Substituting this into the Ksp expression:

Ksp = 27x^4 = 27(0.0141)^4 = 5.6 x 10^-9

Therefore, the Ksp of AB3 at 25 °C is 5.6 x 10^-9.

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How many grams of steam are produced when 675 grams of oxygen gas combust?

2c8h18 (1) + 2502 (g) --> 16co2 (g) + 18h20 (g) (balanced)

Answers

Based on the balanced chemical equation provided, the combustion of 675 grams of oxygen gas (O₂) will produce 275.1 grams of water (H₂O) in the form of steam. Therefore, 275.1 grams of steam are produced when 675 grams of oxygen gas combust.

To determine how many grams of steam are produced when 675 grams of oxygen gas combust, we'll use the balanced equation you provided: 2C₈H₁₈ (l) + 25O₂ (g) --> 16CO₂ (g) + 18H₂O (g).

Step 1: Calculate the molar mass of O₂ and H₂O.
O₂: 16.00 g/mol * 2 = 32.00 g/mol
H₂O: (1.01 g/mol * 2) + 16.00 g/mol = 18.02 g/mol

Step 2: Calculate the moles of oxygen (O₂) in the 675 grams of oxygen gas.
moles of O₂ = 675 g / 32.00 g/mol = 21.09375 mol

Step 3: Use the stoichiometry from the balanced equation to find the moles of H₂O (steam) produced.
(18 mol H₂O / 25 mol O2) * 21.09375 mol O₂ = 15.271125 mol H2O

Step 4: Convert moles of H₂O to grams.
grams of H₂O = 15.271125 mol * 18.02 g/mol = 275.097895 g

So, approximately 275.1 grams of steam are produced when 675 grams of oxygen gas combust.

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What is the pH of a solution of a weak acid H2CO3 (carbonic acid) which is 1. 2 x 10-5 M ? What is the pH of this weak acid when1. 0 x 10-4 M NaHCO 3 is added to it.


The K at of the weak acid is 4. 3 x 10-7


Hint:


H2CO3(aq) = H+ (aq) + HCO3(aq)


NaHCO3(aq) → Na+ (aq) + HCO3(aq)


pH (before) = 5. 64, pH (after) = 9. 53


pH (before) = 7. 00, PH (after) = 8. 00


pH (before) - 3. 79, pH (after) = 5. 92


PH (before) = 5. 64, pH (after) = 7. 29


More information is needed

Answers

The pH of a solution of a weak acid H₂CO₃ (carbonic acid) which is 1. 2 x 10⁻⁵ M is 5.64.

The pH of this weak acid when 1. 0 x 10⁻⁴ M NaHCO₃ is added to it is 9.53.

To find the pH of a solution of weak acid H₂CO₃ with a concentration of 1.2 x 10⁻⁵ M, we can use the equation for the acid dissociation constant (Ka) of H₂CO₃:

Ka = [H+][HCO₃⁻]/[H₂CO₃]

We know that the Ka value for H₂CO₃ is 4.3 x 10⁻⁷, and we can assume that the concentration of HCO₃⁻ is equal to the concentration of H⁺ since it is a weak acid. Therefore, we can simplify the equation to:

4.3 x 10⁻⁷ = [H⁺]² / 1.2 x 10⁻⁵

Solving for [H⁺], we get:

[H⁺] = 3.3 x 10⁻⁴ M

To find the pH, we can use the equation:

pH = -log[H⁺]

So, the pH of the solution before adding NaHCO₃ is:

pH (before) = -log(3.3 x 10⁻⁴) = 5.64

When 1.0 x 10⁻⁴ M of NaHCO₃ is added to the solution, it reacts with the H⁺ ions and forms more HCO₃⁻ ions, causing a shift in the equilibrium. The reaction is:

NaHCO₃(aq) + H⁺ → Na⁺(aq) + H₂CO₃(aq)

The addition of NaHCO₃ increases the concentration of HCO₃⁻ and decreases the concentration of H₂CO₃, which causes the equilibrium to shift to the left. This results in a decrease in [H⁺] and an increase in pH.

To find the pH after adding NaHCO₃, we need to calculate the new concentrations of H+ and HCO₃⁻ using an ICE table. Assuming that the initial concentration of H₂CO₃ does not change significantly, we can set up the table as follows:

                     H₂CO₃(aq) + H₂O(l) ⇌ H₃O⁺(aq) + HCO₃⁻(aq)
Initial:              1.2 x 10⁻⁵ M   0 M         0 M          0 M
Change:             -x                -x             +x            +x
Equilibrium:    1.2 x10⁻⁵ - x    0 - x          x              x

Since the initial concentration of H₂CO₃ is much larger than the amount of H⁺ that will be consumed by the reaction, we can assume that x is negligible compared to the initial concentration. Therefore, we can simplify the expression to:

[H⁺] ≈ x = [HCO₃⁻]

Using the equilibrium expression for the dissociation of HCO₃⁻, we can find the new [HCO₃⁻] concentration:

Ka = [H⁺][CO₃-2]/[HCO₃⁻]
4.3 x 10⁻⁷ = x2 / (1.2 x 10-5 + x)
x = 2.4 x 10⁻⁴ M

Therefore, the new [H⁺] and [HCO₃⁻] concentrations are both 2.4 x 10⁻⁴ M.

The new pH can be calculated using the same equation as before:

pH (after) = -log(2.4 x 10⁻⁴) = 9.53

So, the pH of the solution increases from 5.64 to 9.53 after adding NaHCO₃.

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How many grams of sodium sulfate will be formed if you start with 175. 0 grams of sodium hydroxide and you have an excess of sulfuric acid?

Answers

310.56 grams of sodium sulfate will be formed if you start with 175.0 grams of sodium hydroxide and have an excess of sulfuric acid.

To determine how many grams of sodium sulfate will be formed starting with 175.0 grams of sodium hydroxide and an excess of sulfuric acid, follow these steps:

1. Write the balanced chemical equation: 2 NaOH + H2SO4 → Na2SO4 + 2 H2O

2. Calculate the molar mass of sodium hydroxide (NaOH): (22.99 g/mol for Na) + (15.99 g/mol for O) + (1.01 g/mol for H) = 40.00 g/mol

3. Calculate the moles of sodium hydroxide (NaOH): 175.0 g / 40.00 g/mol = 4.375 moles

4. Determine the mole ratio between sodium hydroxide (NaOH) and sodium sulfate (Na2SO4): From the balanced equation, 2 moles of NaOH react to produce 1 mole of Na2SO4.

5. Calculate the moles of sodium sulfate (Na2SO4) produced: (4.375 moles NaOH) x (1 mole Na2SO4 / 2 moles NaOH) = 2.1875 moles Na2SO4

6. Calculate the molar mass of sodium sulfate (Na2SO4): (2 x 22.99 g/mol for Na) + (32.07 g/mol for S) + (4 x 16.00 g/mol for O) = 142.04 g/mol

7. Calculate the mass of sodium sulfate (Na2SO4) formed: (2.1875 moles Na2SO4) x (142.04 g/mol) = 310.56 grams

Therefore, 310.56 grams of sodium sulfate will be formed if you start with 175.0 grams of sodium hydroxide and have an excess of sulfuric acid.

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Gas in a balloon occupies 2. 5 L at 300 K. At what temperature will the balloon expand to 7. 5 L?

Answers

Gas in a balloon occupies 2. 5 L at 300 K. The temperature will the balloon expand to 7. 5 L is 900 K.

The Charles law states that the volume of the ideal gas is directly proportional to absolute temperature at the constant pressure.

V ∝ T

The Charles’ Law is expressed as :

V₁ / T₁ = V₂ / T₂

Where,

The volume , V₁ = 2.5 L

The temperature,  T₁  = 300 K

The volume, V₂ = 7.5 L

The temperature, T₂ = ?

T₂ =  V₂ T₁ / V₁

T₂  = ( 7.5 × 300 ) / 2.5

T₂  = 900 K

The temperature that will the balloon expand to the 7. 5 L is 900 K.

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A cylinder of Krypton has contains 17 L of Ar at 22. 8 atm and 112 degrees celsisus. How many moles are in the cylinder?​

Answers

The number of moles of krypton in a cylinder containing 17 L of krypton at 22.8 atm and 112 degrees Celsius is 6.47 moles.

There seems to be a typo in the question as it states that the cylinder contains Argon (Ar) but then asks for the number of moles of Krypton (Kr). Assuming the gas in the cylinder is Krypton, we can use the ideal gas law to calculate the number of moles:

PV = nRT

where P is the pressure in atm, V is the volume in liters, n is the number of moles, R is the gas constant (0.082 L·atm/mol·K), and T is the temperature in Kelvin.

First, we need to convert the temperature from Celsius to Kelvin:

T = 112°C + 273.15 = 385.15 K

Now we can plug in the values and solve for n:

n = PV/RT

n = (22.8 atm)(17 L)/(0.082 L·atm/mol·K)(385.15 K)

n ≈ 20.3 moles

Therefore, there are approximately 20.3 moles of Krypton in the cylinder.

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An ethanol plant distills alcohol from corn. The distiller processes 2. 0 t/h of feed containing 15% alcohol and 82% water; the rest is inert material. The bottoms (waste) produced is 85% of the feed and contains 94% water, 3. 5% inert material, and 2. 5% alcohol. The vapor (product) from the top of the distiller is passed through a condenser and cooled to produce the final product. Determine the rate of production of the final product and its composition

Answers

The rate of production of the final product is 0.3 t/h, and the composition of the final product is approximately 12.5% alcohol and 12% water, with no inert material present.

In an ethanol plant, the distillation process separates alcohol from corn. With a feed rate of 2.0 tons per hour, the bottoms waste contains 85% of the feed, while the final product is obtained from condensing and cooling the vapor.

To determine the rate of production of the final product and its composition, we need to calculate the mass flow rate of the final product and the composition of the final product.

Given:

Feed rate = 2.0 t/h

Composition of feed:

Alcohol: 15%

Water: 82%

Inert material: (100% - 15% - 82%) = 3%

Bottoms composition:

Water: 94%

Inert material: 3.5%

Alcohol: 2.5%

To calculate the rate of production of the final product, we need to subtract the mass of bottoms produced from the feed rate:

Rate of production of the final product = Feed rate - Mass of bottoms

Mass of bottoms = Feed rate × Bottoms composition = 2.0 t/h × 85% = 1.7 t/h

Rate of production of the final product = 2.0 t/h - 1.7 t/h = 0.3 t/h

Therefore, the rate of production of the final product is 0.3 tons per hour.

To calculate the composition of the final product, we need to consider the remaining components after removing the bottoms:

Composition of final product:

Alcohol: 15% - 2.5% = 12.5%

Water: 82% - 94% = 12%

Inert material: 3% - 3.5% = -0.5% (Assuming a negative value means there is no inert material remaining)

Therefore, the composition of the final product is approximately:

Alcohol: 12.5%

Water: 12%

No inert material

Please note that the negative value for the inert material indicates that there is no inert material present in the final product.

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What are the oxidation states exhibited by c, si, ge, sn,pb

Answers

The oxidation states exhibited by C, Si, Ge, Sn, Pb are -4, +4, +2 or +4, +2 or +4, and +2 or +4, respectively.

The oxidation state, also known as the oxidation number, is a measure of the degree of oxidation of an atom in a chemical compound. The oxidation state can be determined by assigning electrons to each atom in a compound according to a set of rules.

In general, carbon (C) exhibits an oxidation state of -4 in compounds such as methane (CH₄), where it is bonded to four hydrogen atoms. Carbon can also exhibit positive oxidation states in compounds such as carbon dioxide (CO₂), where it is bonded to two oxygen atoms, and in carbonyl compounds, where it is bonded to a metal.

Silicon (Si), germanium (Ge), tin (Sn), and lead (Pb) all belong to the same group in the periodic table and therefore exhibit similar chemical properties. They can all exhibit positive oxidation states of +2 and +4. For example, silicon can exhibit an oxidation state of +4 in silicon dioxide (SiO₂) and +2 in silane (SiH₄). Germanium, tin, and lead also exhibit a similar range of oxidation states in their compounds.

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