How is burning gasoline in an automobile engine part of the carbon cycle?
Burning gasoline removes carbon compounds from the atmosphere.
Burning gasoline produces carbon dioxide as a gas in the atmosphere.
Burning gasoline changes other elements into carbon.
Burning gasoline releases energy that plants can use for photosynthesis.

When carbonyl compounds are reduced with a reagent such as LiAlH₄ or NaBH₄ and  new stereogenic center is formed, chemical change will lead to form products that form a racemic mixture of two enantiomers with alcohol as its composition.

A Chemical change is defined as a change which occurs when a substance combines with another substance to form a new substance as product. Also, when a substance decomposes to give new substances it is also considered as a chemical change.

The reduction of an unsymmetrical ketone with the reducing agents LiAlH4 or NaBH4 gives a pair of stereoisomers. This is  because the hydride ion can attack from either face of a planar carbonyl group. And , If no other chiral center is present, then the product is a racemic mixture of two enantiomers. The carbonyl group is converted to alcohol in the end product of such reactions.

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Supersaturated solution is made from a mixture that contains 1115.94 g KCl in 2657 g of water at 30 oC.

To identify the kind of solution produced from a mixture comprising 1115.94 g KCl in 2657 g of water at 30 oC, we must compare the amount of KCl in the solution to the maximum amount of KCl that may dissolve in the water at that temperature, which is provided as 37.0 g KCl/100 g H2O.

First, we need to convert the mass of water to grams of water:

2657 g water x (100 g H2O / 100 g water) = 2657 g H2O

Next, we can calculate the maximum amount of KCl that can dissolve in 2657 g of water at 30 oC:

Maximum amount of KCl = 37.0 g KCl/100 g H2O x 2657 g H2O

Maximum amount of KCl = 981.09 g KCl

Since the amount of KCl in the mixture (1115.94 g) is greater than the maximum amount of KCl that can dissolve in 2657 g of water at 30 oC (981.09 g), the solution is supersaturated.

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The compounds HF, [tex]H_2SO_4[/tex], and HBr are strong acids in aqueous solution.

Strong acids are molecules that can easily donate protons to water molecules in aqueous solution. This dissociation of protons from the acid molecules creates a solution that is highly acidic, often with a pH of less than 7.Hydrofluoric acid (HF), sulfuric acid ([tex]H_2SO_4[/tex]), and hydrobromic acid (HBr) are all strong acids in aqueous solution. This is because the conjugate bases of these acids are generally much less stable than the acids themselves, which makes them more likely to dissociate and donate protons in water.The higher the difference in stability, the more likely it is that the acid will dissociate in water and the stronger the acid will be.

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Answer: When HNO3 is added to a saturated solution of silver acetate, it will react with the acetate anions to form nitric acid and acetic acid. This will shift the equilibrium of the solubility reaction to the right, according to Le Chatelier's principle, resulting in an increase in the solubility of silver acetate.

AgC2H3O2(s) ⇌ Ag+(aq) + C2H3O2-(aq)

Adding NH3 to the saturated solution of silver acetate will react with the silver ions to form the complex ion Ag(NH3)2+. This will remove the silver ions from the solution, thus decreasing the concentration of Ag+ in the solution. According to Le Chatelier's principle, the equilibrium of the solubility reaction will shift to the left to compensate for the decrease in Ag+, resulting in a decrease in the solubility of silver acetate.

Ag+(aq) + 2NH3(aq) ⇌ Ag(NH3)2+(aq)

Therefore, the addition of HNO3 will increase the solubility of silver acetate, while the addition of NH3 will decrease the solubility of silver acetate.

Explanation:

The haloform test does not proceed more quickly as more of the protons are replaced.

This is because the haloform test is not influenced by the presence of protons. The haloform reaction is a well-known test for carbonyl compounds that react with hypochlorite (NaClO) in the presence of a base (OH) to produce haloforms. The haloform reaction is a typical aldehydic and ketonic carbonyl group reaction that yields a haloform (e.g., CHX3, where X is halogen) and a carboxylate. The haloform reaction proceeds with a carbonyl group as the starting material. The alpha hydrogen on the carbonyl group is removed by base and oxidized by hypochlorite to form the haloform.

When the reaction occurs, three alpha hydrogen atoms are replaced by halogen atoms, resulting in the formation of haloform. The presence of protons in a molecule does not speed up the reaction rate of the haloform reaction. The haloform test reaction rate is influenced by the concentration of NaOH (a base) and hypochlorite (NaClO). As a result, the haloform test does not proceed more quickly as more protons are replaced.

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1. The volume of the 12.0 g of methane, CH₄ is 16.8 L

2. The new celsius temperature of the gas is -153.8 °C

3i. The partial pressure for CO₂ is 0.575 atm

3ii. The partial pressure for O₂ is 0.2875 atm

3iii. The partial pressure for water is 0.2875 atm

First, we shall obtain the mole of the gas. This shown below:

Mole = mass / molar mass

Mole of methane, CH₄ = 12 / 16

Mole of methane, CH₄ = 0.75 mole

Finally, we shall determine the volume of the methane, CH₄

From ideal gas equation,

1 mole of methane, CH₄ = 22.4 L

Therefore,

0.75 mole of methane, CH₄ = 0.75 × 22.4

0.75 mole of methane, CH₄ = 16.8 L

Thus, the volume of methane, CH₄ is 16.8 L

The new temperature of the gas can be obtained as follow:

Charles' law equation is given as follow:

V₁ / T₁ = V₂ / T₂

Inputting the variables, we have

10 / 298 = 4 / T₂

Cross multiply

10 × T₂ = 298 × 4

Divide both side by 10

T₂ = (298 × 4) / 10

T₂ = 119.2 K

Subtract 273 to obtain answer in °C

T₂ = 119.2 - 273 K

T₂ = -153.8 °C

Thus, the new temperature is -153.8 °C

i. Partial pressure for CO₂ can be obtained as follow:

Partial pressure of CO₂ = (percentage of CO₂ / total percent) × total pressure

Partial pressure of CO₂ = (50 / 100) × 1.15

Partial pressure of CO₂ = 0.575 atm

ii. Partial pressure for O₂ can be obtained as follow:

Partial pressure of O₂ = (percentage of O₂ / total percent) × total pressure

Partial pressure of CO₂ = (25 / 100) × 1.15

Partial pressure of O₂ = 0.2875 atm

iii. Partial pressure for water can be obtained as follow:

Total pressure = Partial pressure of CO₂ + partial pressure of O₂ + partial pressure of water

1.15 = 0.575 + 0.2875 + partial pressure of water

1.15 = 0.8625 + partial pressure of water

Collect like terms

Partial pressure of water = 1.15 - 0.8625

Partial pressure of water = 0.2875 atm

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Under forward biasing, the processes that occur in the quasi-neutral regions adjacent to the depletion region edges are drift and diffusion.

What is forward biasing?

Forward biasing is the method of turning on a diode by providing a voltage that enables current to flow through the diode.

Quasi-neutral region

Quasi-neutral regions are the areas of a p-n junction diode where there is a substantial concentration of charge carriers on either side of the junction.

The density of charge carriers varies gradually in this area. As a result, the electrons and holes are mutually neutralized, and the region becomes electrically neutral.

In a p-n junction diode, there are two types of regions: the p-type region, which is dominated by holes, and the n-type region, which is dominated by electrons.

When the diode is forward-biased, the negative terminal is connected to the N-region, and the positive terminal is connected to the P-region.

This causes an electric field to develop that pushes the electrons toward the P-region and the holes toward the N-region.

When the applied voltage causes the minority carriers to be pushed across the junction into the opposite region, the carriers cross the depletion area, which is the space-charge region. In a diode, the area on either side of the junction, which is free of any charge carriers, is known as the depletion area or region.

The quasi-neutral regions adjacent to the depletion region edges experience drift and diffusion under forward biasing.

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The buoyant force acting on the Lucia before the torpedo attack was the upward force on the submarine due to the water it displaces when submerged.

This force is determined by the submarine's volume and the density of the water it is submerged in. This force essentially counteracts the downward force of gravity, allowing the Lucia to remain at a constant depth underwater.The buoyant force acting on the Lucia before the torpedo attack was the force of the water pushing up on the hull of the ship, which counteracted the force of gravity pulling it down. This buoyancy kept the ship afloat, allowing it to remain afloat even when it was loaded with cargo and crew.

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complete question:Describe the buoyant force acting on the Lucia before the torpedo attack.

In the Fischer esterification reaction, sulfuric acid acts as a catalyst that facilitates the reaction between a carboxylic acid and an alcohol to form an ester. The sulfuric acid protonates the carboxylic acid, making it more reactive towards the alcohol.

The acid also facilitates the removal of water from the reaction mixture, which drives the equilibrium towards the formation of the ester. This results in a higher yield of the ester product. The Dean-Stark trap is a piece of equipment used in the Fischer esterification reaction to remove water from the reaction mixture. It is a special type of condenser that collects the water formed during the reaction and allows it to separate from the organic layer.

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A pure substance that cannot be broken down into simpler substances is water.

A pure substance is a substance made up of one type of atom or molecule that cannot be broken down into simpler substances. This means that the substance has a fixed chemical composition that does not vary from sample to sample. Examples of pure substances include water, carbon dioxide, and salt.

The pure substance that cannot be broken down into simpler substances is called an element. An element is a substance that is made up of only one type of atom. Examples of elements include hydrogen, oxygen, and iron. Each element has a unique set of chemical and physical properties that distinguish it from other elements.

Elements are organized into the periodic table based on their atomic structure and properties. Elements can combine to form compounds, which are made up of two or more different elements chemically bonded together. Compounds can be broken down into their constituent elements by chemical means, but elements cannot be broken down into simpler substances.

Therefore, elements are considered pure substances that cannot be broken down any further.

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The cage size of zeolites is in the centimeters scale. This statement is false.


Zeolites are microporous aluminosilicate minerals that have a framework structure composed of aluminosilicate tetrahedra. these tetrahedra are related together to form a three-dimensional pore shape with uniform size and form. Zeolites are widely used as adsorbents, catalysts, and ion-exchangers due to their particular properties such as excessive floor location, thermal stability, and molecular sieving homes.Cage length of Zeolites are known for his or her uniform pore size and form. the dimensions of the pores in zeolites ranges from 2-10 Å (angstroms), that's too small to be measured in centimeters. consequently, the cage size of zeolites isn't in the centimeters scale, but as an alternative in the angstroms scale.

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Explanation:

In the formation of an ionic crystal, several enthalpy changes are involved. These include:

Lattice energy: The energy released when gaseous ions come together to form a solid ionic compound.

Ionization energy: The energy required to remove an electron from an atom or ion in the gas phase.

Electron affinity: The energy released when an electron is added to an atom or ion in the gas phase.

Hydration energy: The energy released when an ion is surrounded by water molecules in solution.

Heat of solution: The energy absorbed or released when a solute dissolves in a solvent.

Overall, the formation of an ionic crystal involves a complex interplay of these different enthalpy changes. The strength of the forces holding the ions together in the crystal lattice depends on the balance between these different energy contributions.

The chemical reaction of lime (calcium oxide) with water in the soil produces calcium hydroxide, a base. This reaction occurs when water molecules interact with the calcium oxide molecules, forming calcium hydroxide. The equation for this reaction is CaO + H₂O → Ca(OH)₂

Calcium oxide is produced by heating limestone to a high temperature. When calcium oxide is mixed with water, calcium hydroxide is produced. It is also called slaked lime.

Calcium hydroxide, a base, helps to reduce the acidity of the soil. It can do this because it has a pH greater than 7. The reaction between lime and water helps to neutralize the soil pH by releasing hydroxide ions which bond with hydrogen ions in the soil, causing the acidity to decrease. This is especially beneficial for plants, as acidic soil can stunt their growth.

Calcium hydroxide is used in a variety of applications, including the production of cement.

Overall, when water reacts with lime (calcium oxide) in the soil, calcium hydroxide is formed. This base helps to reduce the acidity of the soil, making it more suitable for plant growth.

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25 (b)  106 g of Na2CO3 is needed to produce 22.4 dm³ of CO2 at STP in this reaction.

Volume occupied by one mole of a substance at a given temperature and pressure is known as molar volume.

Balanced equation shows that 1 mole of Na2CO3 produces 1 mole of CO2. Therefore, the number of moles of CO2 produced in 22.4 dm^3 of gas at STP is:

n = V/VM = 22.4/22.4 = 1 mol

So we need 1 mole of Na2CO3 to produce this amount of CO2.

Molar mass of Na2CO3 is:

2Na + C + 3O = (2x23) + 12 + (3x16) = 106 g/mol

Therefore, mass of Na2CO3 needed is:

As mass = n x molar mass = 1 mol x 106 g/mol = 106 g

So, 106 g of Na2CO3 is needed to produce 22.4 dm³ of CO2 at STP in this reaction.

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The adiabatic flame temperature is the temperature of the flame when no heat is lost to the surroundings during combustion. In pure oxygen (oxycombustion), the combustion process involves the reaction of coal with pure oxygen.

This process provides a higher concentration of oxygen, leading to higher combustion temperatures compared to combustion in air. In contrast, air contains only 21% oxygen, and the combustion process is less efficient due to the presence of nitrogen, which acts as a heat sink.

Therefore, combustion in pure oxygen will have a higher adiabatic flame temperature than combustion in air. This higher temperature can be advantageous in certain industrial processes that require high temperatures, such as steel production, glass manufacturing, and chemical synthesis. However, pure oxygen is expensive to produce, so the cost of oxycombustion may be higher than combustion in air.

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Oxygen, abbreviated O2, is the limiting reactant in this scenario. Limiting Reactor: The fire equation is O2 + Fuel = CO2 + H2O

When a pile of leaves is set on fire and the fire is covered with a fire blanket to put it out, the blanket restricts the amount of oxygen the fire can access, which lowers the amount of oxygen present and lowers the amount of CO2 and H2O that can be created.

By dividing the volume of each solution by its molarity, you can get the number of moles of each reactant. By dividing the number of moles of each reactant by its stoichiometric coefficient in the balanced chemical equation, you may determine which reactant is the limiting one.

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Reverend Thomas Robert Malthus initially put forth the Malthusian hypothesis of population growth in 1798, which predicts that an unrestrained population would surpass its food supply.

According to the hypothesis, sickness, starvation, war, and other calamities will eventually ensue when the food supply cannot keep up with the increase in the human population. Malthus established the Statistical Society of London and was a well-known statistician and political economist.

Thomas Robert Malthus famously prophesied in 1798 that if human population expansion outpaced food production, short-term advances in living standards would inevitably be undermined and pull living standards back towards subsistence.

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ans:We have to find theoretical yield and percentage yield of the reaction.

Solution : 14.5 g of SO2 reaches with 21 g of O2. and actual yield is 12g.

first we see chemical reaction is SO2 and O2,

2SO2 + O2 ⇒2SO3

we see, 2 moles of SO2 react with 1 mole of O2.

molecular weight of SO2 = 32 + 2 × 16 = 64 g

molecular weight of O2 = 32g

∴ 2 × 64 = 128g of SO2 reacts with 32g of O2.

∴ 14.5g of SO2 reacts with 32/128 × 14.5 = 3.625 g but given O2 is 21g

so, SO2 is limiting reagent.

hence, reaction prefers SO2 to produce SO3

2 moles of SO2 give 2 moles of SO3

∴ 128g of SO2 gives 2 × (32 + 3 × 16) = 160g of SO3

⇒14.5 g of SO2 gives 160/128 × 14.5 g = 18.125 g

so theoretical yield = 18.125 g

but actual yield = 12g

so, percentage yield = actual yield/theoretical yield × 100

= 12/18.125 × 100

= 66.207 %

The answer is it will take longer to dissolve the solute in the solution. Add the solute slowly. Stir or agitate the solution. Increase the atmospheric pressure. Add the solute in large chunks. If a solute is added slowly, it will take longer to dissolve in the solution.

Stirring or agitating the solution will improve the rate at which the solute dissolves in the solution because it helps to break up the solute particles into smaller pieces, which increases the solute's contact with the solvent. Increasing the atmospheric pressure has the potential to improve the rate of dissolving a solid in a solution. The atmospheric pressure is the weight of the air over the surface of the solution. The higher the pressure, the more gas molecules are present in the atmosphere, and the more they will be compressed against the surface of the solution. The rate of dissolving of a solid in a solution can be slowed down by adding the solute in large chunks. As a result, it will take longer to dissolve the solute in the solution.

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The coal cost of $90/ton with an intensity content of 7000 BTU for every pound is D: $6.42/MMBtu.

The recipe to compute MMBtu from tons is as per the following -

Cost per mmbtu = cost per ton × 500/BTU per pound

Keep the qualities in the equation to find the cost per MMBtu

Cost per mmbtu = (90×500)/7000

Performing augmentation in the numerator on Right Hand Side of the situation

Cost per mmbtu = 45000/7000

Performing division on Right Hand Side of the situation to find the cost per MMBtu for coal

Cost per mmbtu = $6.42/mmbtu

Accordingly, the right choice is D: $6.42/MMBtu.

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A vital component of both chemical and biological processes, water is a wonderful substance. Its special characteristics result from the organisation of its molecules and the interactions they have with one another and with other molecules.

Water's ability to generate hydrogen bonds is one of its most significant characteristics. The negative oxygen atom of one water molecule interacts electrostatically with the positive hydrogen atom of another, forming hydrogen bonds. Water has a high surface tension as a result of these connections, which also enable it to form droplets and adhere to surfaces. For the structure and stability of biomolecules like proteins and nucleic acids in biological systems, hydrogen bonding are essential.The solvent water is likewise quite good. Many different polar and ionic chemicals can be dissolved by it because of its polar nature. The cytoplasm of cells and other biological fluids like blood contain it since it is a necessary component.

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Electrons distribution in shells:

First shell - 2 electrons

Second shell - 8 electrons

Third shell - 18 electrons

Fourth (valence shell) - 3 electrons

Explanation:

The group number of an element can be found by finding its number of valence shell electrons.

According to the electrons distribution in shells, the valence shell has 3 electrons

Hence element M will be in the third group of the periodic table

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Answer:

(1) 80.64 Liters
(2) [tex]6.29 \times 10^{-4} Liters[/tex]
(3) 2.61 grams
(4) 0.714 g/L
(5) 0.19624 kilograms

Explanation:

It's known that:
one mole of any gas at STP (1 atm, 273K ) = 22.4 Liter
number of moles of any gas at STP = [tex]\frac{V}{22.4} = \frac{Particles}{N_A}[/tex]   , Where V is Volume, NA is Avogadro's number, Particles: number of Particles
Volume of gas at STP = Moles × 22.4L

density = [tex]\frac{Molar-Mass}{Volume}[/tex]

(1)
Given That:

3.6 moles of CO2

Then:

Volume = 3.6 × 22.4 = 80.64 Liters

(2)

Moles of O2= [tex]\frac{1.69 \times 10^{19}}{6.022 \times 10^{23}} = 2.81 \times 10^{-5} moles[/tex]

Volume of O2= 22.4 × 2.81 × 10^-5 = [tex]6.29 \times 10^{-4} Liters[/tex]

(3)

Number of moles of He = [tex]\frac{14.6}{22.4} = 0.65 moles[/tex]

mass of He (molar mass = 4 g/mol) = 0.65 × 4 = 2.61 grams

(4)

The molar mass of CH4 = 12 + 4 = 16 g/mol

assuming that we have, at STP, one mole of Methane "CH4"

So, the volume = 22.4 L

Hence, The density = [tex]\frac{16}{22.4} = 0.714 g/L[/tex]

(5)

Number of moles of [tex]C_3H_8[/tex] = [tex]\frac{100}{22.4} = 4.46 moles[/tex]

molar mass of [tex]C_3H_8[/tex] = 3(12) + 8 = 44 g/mol

mass of [tex]C_3H_8[/tex] = 44 × 4.46 = 196.24 grams = 0.19624 kilograms




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To calculate the pH of very dilute solutions, simply taking the negative log of the concentration of substance put into solution is likely to give incorrect results if the concentration is less than [tex]10^-^7M[/tex].

The calculation of pH of very dilute solutions is likely to give incorrect results because when we take the negative logarithm of the hydrogen ion concentration in a solution, we should have a minimum of [tex]10^-^7M[/tex] hydrogen ion concentration to calculate the pH with. This is because pure water dissociates into [tex]10^-^7M[/tex] hydrogen and hydroxide ions.

For any solution with a pH of 7 or greater, the hydrogen ion concentration is lower than [tex]10^-^7M[/tex] . If we try to calculate the pH of a very dilute solution with hydrogen ion concentration less than [tex]10^-^7M[/tex], then the pH value will be outside the range of 0 to 14, which is not possible.

Hence, this will give incorrect results. Therefore, it is necessary to use alternative methods such as diluting the solution with a solvent or using indicators.

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Answer:

The balanced chemical equation for the reaction of aluminum and oxygen to form aluminum oxide is:

4 Al + 3 O2 → 2 Al2O3

According to the stoichiometry of this reaction, 4 moles of aluminum reacts with 3 moles of oxygen to produce 2 moles of aluminum oxide.

Therefore, if 10 moles of aluminum react with enough oxygen, the limiting reactant will be aluminum, and all 10 moles of aluminum will react with 7.5 moles of oxygen to produce:

(10 mol Al) x (2 mol Al2O3 / 4 mol Al) = 5 moles of Al2O3

Therefore, 5 moles of aluminum oxide will be produced.

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Answer:

Water and salt can be separated through the process of distillation or evaporation. The water is boiled till it evaporates into vapor and leaves salt behind as a solid. The boiling point of water is lower compared to the boiling point of salt.

Explanation:

The method of separating salt and water from their solutions​ is called evaporation or condensation

Here are the steps:

1. Pour the saltwater solution into a heat-resistant container, such as a glass or metal beaker.

2. Place the container on a heat source, such as a hot plate or stove.

3. Heat the solution until the water begins to evaporate. The salt will remain in the container as the water turns into steam.

4. Once all the water has evaporated, turn off the heat source and allow the container to cool.

5. As the steam cools, it will condense back into liquid form, leaving the salt behind.

6. Carefully remove the salt from the container using a utensil, such as a spatula or a spoon.

7. Discard the remaining water, or save it for other uses.

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2-methyl-2-butene

Explanation:

From my knowledge of the dehydration of tertiary alcohols, the olefin that should predominate in the product of the dehydration of 2-methyl-2-butanol is 2-methyl-2-butene. This is because of the following reasons:

1. Dehydration of alcohols is an elimination reaction that follows the E1 mechanism.
2. In the E1 mechanism, the reaction rate depends on the stability of the carbocation formed.
3. Tertiary carbocations are more stable than secondary or primary carbocations due to hyperconjugation and inductive effects.
4. In the dehydration of 2-methyl-2-butanol, a tertiary carbocation is formed as an intermediate.
5. The carbocation can lose a proton to form an alkene.
6. Since the tertiary carbocation is more stable, it will form the more substituted alkene, which is 2-methyl-2-butene, due to Zaitsev's rule.
7. Zaitsev's rule states that the major product in an elimination reaction is the more substituted alkene, resulting from the removal of the least substituted proton.

So, 2-methyl-2-butene should predominate in the product of the dehydration of 2-methyl-2-butanol due to the stability of the tertiary carbocation and Zaitsev's rule.

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The empirical formula of the compound is: CH4.

To determine the empirical formula and/or molecular formula of a compound from percent composition or mass data, follow the steps below:

Empirical Formula:

Molecular Formula:

Example: What is the empirical formula of a compound that contains 14.3 g of carbon and 4.8 g of hydrogen?

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The temperature of a given volume of water changes as heat is added at a consistent pace, as shown by the water heating curve. The temperature of the water does not vary throughout a phase shift, creating a plateau on the graph.

When a substance is heated to a material-specific phase-change temperature, the phase transition from solid to liquid occurs immediately.

Water has a specific heat capacity of 4.18 J/g/°C. The amount of heat, or Q, is what we want to know. To do this, we would apply the formula Q = m•C•T. Knowing the m and C allows for the calculation of the T.

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