Write the condensed structure for each of these skeletal structures. C1 condensed structure: (CH3)3 C CH CL Incorrect IZ N H H3C CH2 NH CH CH2 condensed

7 half-lives is equivalent to 56 days.

What is Half Life?

Half-life is the time required for half of the atoms in a sample of a radioactive substance to undergo radioactive decay. It is a characteristic property of each radioactive isotope, and can be used to determine the age of materials containing the isotope or to estimate the amount of the isotope remaining in a sample. The concept of half-life is based on the probabilistic nature of radioactive decay, which occurs at random times with a constant probability. The half-life is the time it takes for half of the atoms to decay, but the other half will remain, and each subsequent half-life will reduce the amount of radioactive material by half again.

The given conversion from half-lives to days can be solved using the following steps:

The given quantity is 7 half-lives.

We need to convert this to days.

The conversion factor given is 8 days per 1 half-life.

To convert from half-lives to days, we need to multiply the number of half-lives by the conversion factor.

So, using the given information:

7 half lives x 8 days / 1 half life = 56 days

Therefore, 7 half-lives is equivalent to 56 days.

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False. According to the statement, the rate of recirculation can be adjusted to control the amount of dissolved oxygen present during the solids-contact clarifying process. Recirculation rate can play a significant role in process control, but it is not the only one.

The rate of recirculation refers to the percentage of a fluid's flow that is redirected back into a system for further processing or reuse, rather than being discharged or wasted. The rate of recirculation can vary depending on the specific system and process involved, but it is often used in industrial settings to improve efficiency and reduce waste. A high rate of recirculation can result in significant cost savings and environmental benefits.

Hence, the answer is False. The statement appears to be about controlling the dissolved oxygen volume in the solids-contact clarification process by controlling the rate of recirculation.

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The limiting reactant is N₂O₄ and the mass of N₂ formed from the reaction is 45.7 g (Option C)

The limiting reactant can be obtained as illusrated below:

N₂O₄ + 2N₂H₄ -> 3N₂ + 4H₂O

From the balanced equation above,

92.02 g of N₂O₄ reacted with 64.1 g of N₂H₄

Therefore,

50 g of N₂O₄ will react with = (50 × 64.1) / 92.02 = 34.83 g of N₂H₄

From the above calculation, we can see that only 34.83 g of N₂H₄ out of 45.0 g reacted.

Thus, the limiting reactant is N₂O₄

The limiting reactant shall be used in this case in order to obtain a maximum yield of N₂. Details below:

92.02 g of N₂O₄ reacted to produce 84.06 g of N₂

Therefore,

50 g of N₂O₄ will react to produce = (50 × 84.06) / 92.02 = 45.7 g of N₂

Thus, the mass of N₂ formed is 45.7 g

Therefore, the correct answer to the question is (Option C)

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Therefore, the actual yield of iron in moles is 0.351 mol, the theoretical yield of iron in moles is 0.572 mol, and the percent yield is 61.31%.

In chemistry, a mole (mol) is a unit of measurement used to express the amount of a substance. It is defined as the amount of a substance that contains the same number of entities (such as atoms, molecules, or ions) as there are atoms in 12 grams of pure carbon-12. Moles are used to convert between the mass of a substance and the number of entities it contains, as well as to calculate the stoichiometry of chemical reactions. For example, the mass of a substance can be converted to moles by dividing the mass by its molar mass (the mass of one mole of the substance), which allows for the comparison of different substances on a per-mole basis. Similarly, the number of entities in a substance can be converted to moles by dividing the number by Avogadro's number.

Here,

To determine the theoretical yield of iron in moles, we first need to use the balanced chemical equation to calculate the moles of Fe produced from 0.286 mol of Fe2O3:

1 mol Fe2O3 produces 2 mol Fe (from the balanced equation)

Therefore, 0.286 mol Fe2O3 produces (2/1) x 0.286 mol Fe = 0.572 mol Fe (theoretical yield)

The actual yield of Fe is given as 19.6 g, so we need to convert this to moles using the molar mass of Fe:

molar mass of Fe = 55.845 g/mol

moles of Fe = 19.6 g / 55.845 g/mol = 0.351 mol (actual yield)

The percent yield is calculated by dividing the actual yield by the theoretical yield and multiplying by 100:

percent yield = (actual yield / theoretical yield) x 100%

percent yield = (0.351 mol / 0.572 mol) x 100% = 61.31%

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If carbon makes up 52 g of a compound's mass, then there are 100 g of the compound and 52 g of carbon.

The percentage of a solution's mass that is made up of solutes is known as the mass percent. This percentage is measured in relation to the total mass of the solution.

A concentration or a component in a certain mixture can be expressed as mass percent. The mass percentage that indicates the mass of solute contained in a given mass of solution can be used to characterize the composition of the solution. In terms of mass or moles, the solute's concentration is expressed.

Each element must have an equal amount of atoms, which must be an integer ratio. If carbon makes up 52 g of a compound's mass, then there are 100 g of the compound and 52 g of carbon.

The mass percentage of each element is converted to moles using the mass formula mass / molar mass

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Magnesium burns in air with a bright blue flame, leaving behind a solid residue.  The balanced chemical equation for this reaction is

2 Mg + O₂ = 2 MgO

When a magnesium ribbon burns with oxygen present. A brilliant white flame and a white solid residue called magnesium oxide were also visible.

The reaction will be 2 Mg + O₂ = 2 MgO

A metal that is quickly oxidized is magnesium. Magnesium burns as a result of the interaction between oxygen and magnesium. A violet-colored, brilliant light may be produced by the reaction. Most magnesium is used in a solid form, whereas oxygen is a gas.

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If your colleague accidentally uses 0.1 M HCl(aq) to dilute fluorescein instead of 0.1 M NaOH(aq), the solution will become acidic rather than basic.

Fluorescein is a pH-sensitive molecule that changes structurally in acidic conditions, resulting in a substantial decrease in fluorescence intensity. Fluorescein exists in a deprotonated form in basic conditions, which is accountable for its bright green fluorescence.

In acidic conditions, however, the molecule protonates, causing a structural change that changes its electronic properties and results in a drop in fluorescence intensity.

As a result, if fluorescein is dissolved in 0.1 M HCl(aq), the solution becomes acidic, and the fluorescence intensity decreases considerably. This would have a significant impact on fluorescein's properties, especially its fluorescence.

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The model of methane represents a molecule (option D).

Molecule in chemistry is the smallest particle of a specific element or compound that retains the chemical properties of that element or compound.

A molecule is two or more atoms held together by chemical bonds.

According to this question, methane is the simplest aliphatic hydrocarbon made up of one atom of carbon and four atoms of hydrogen.

Methane is a molecule because it is made up of two different atoms.

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Epoxides undergo a ring-opening reaction when attacked by strong nucleophiles, optically inactive starting material gives optically inactive products, this is an SN2 reaction. Option A and B are correct choices.

A) This statement is true. Epoxide ring opening by a strong nucleophile does not involve any chiral center, will give an optically inactive product.

B) This statement is also true. Epoxide ring opening by a strong nucleophile is typically an SN2 reaction, in which the nucleophile attacks the electrophilic carbon of the epoxide from the backside, leading to inversion of configuration at the attacked carbon.

C) This statement is not generally true. The Regio chemistry of epoxide ring opening by a strong nucleophile depends on the nature of the nucleophile, the identity of the substituents on the epoxide, and the reaction conditions.

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--The complete question is, Epoxides undergo a ring-opening reaction when attacked by strong nucleophiles. Select all that describe stereo/regiochemistry of this process.

A) optically inactive starting material gives optically inactive products

B) this is an SN2 reaction

C) for an unsymmetrical epoxide, the nucleophile attacks the less substituted C atom--

Answer:

When someone spends a long period in a closed well, their ability to breathe becomes more difficult due to the high concentration of carbon dioxide that has accumulated, which could result in death.

can I please get the five points :)

Answer:

NO2

Explanation:

the molar mass of oxygen = 138.06 x 0.695 = 95.9517

=> 95.9517/16 = 6

the molar mass of nitrogen = 138.06 x 0.305 = 42.1083

=> 42.1083 / 14 = 3

So there are 3 N and 6 O => N3O6 which is simplified empirically as NO2

The concept balanced equation is used here to determine the amount of Tin (II) fluoride produced from 30.00g of hydrogen fluoride. The mass of SnF₂ is 117.5 g.

A chemical equation which obeys the law of conservation of mass in which the mass of the reactants is equal to the mass of the products on either side of the reaction is known as the balanced equation.

The balanced equation for the given reaction is:

Sn + 2HF → SnF₂ + H₂

Here 1 mole of SnF₂ is produced from 2 mole of HF. The molar mass of SnF₂ is 156.71 g and that of HF is 20 g.

30 g HF × 1 mol HF / 20 g HF × 1 mol SnF₂ / 2 mol HF × 156.71 g SnF₂ / 1 mol SnF₂ = 117.5 g SnF₂

Thus the mass of Tin (II) fluoride is 117.5 g .

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The empirical formula for the compound is KClO3.

Percentage yield =72.71%

A limiting agent, also identified as a limiting reactant, is a chemical reactant that restricts the amount of product that can be formed during a chemical reaction. In a chemical reaction, reactants combine to form products in specific proportions based on their mole ratios, as determined by the balanced chemical equation for the reaction. The reactant that is present in the smallest amount, relative to its stoichiometric coefficient in the balanced equation, will be completely consumed in the reaction, leaving excess of the other reactants.

To determine the percent yield, we need to calculate the theoretical yield first.

Finding the limiting reactant:

We need to determine which of the two reactants, potassium chloride or oxygen, is limiting the reaction.

The balanced chemical equation for the reaction would be:

2 KCl + 3 O2 → 2 KClO3

From the equation, we can see that 2 moles of KCl react with 3 moles of O2 to produce 2 moles of KClO3. Therefore, the mole ratio of KCl to O2 is 2:3.

Let's figure out how many moles of each reactant there are:Number of moles of KCl = 9.65 g / 74.55 g/mol = 0.1294 mol

Number of moles of O2 = 4.55 L × (1 mol/22.4 L) = 0.2031 mol

Using the mole ratio, we can see that we need 1.5 times more moles of O2 than KCl.Therefore, oxygen is the limiting reactant.

Finding the theoretical yield:

Since oxygen is the limiting reactant, we can use its moles to calculate the theoretical yield of the product:

Number of moles of KClO3 = 0.2031 mol × (2 mol KClO3/3 mol O2) = 0.1354 mol

Mass of KClO3 = 0.1354 mol × 122.55 g/mol = 16.58 g

Calculating the percent yield:

Percent yield = (actual yield divided by theoretical yield) × 100%

Percent yield = (1205 g / 16.58 g) × 100% = 72.71%

Balanced chemical equation:

2 KCl + 3 O2 → 2 KClO3

Skeletal equation:

KCl + O2 → KClO3

Empirical formula for the product:

Assume 100 g of the compound:

Mass of potassium = 31.01 g

Mass of chlorine = 28.33 g

Mass of oxygen = 39.17 g

Number of moles of each element:

Number of moles of potassium = 31.01 g / 39.10 g/mol = 0.793 mol

Number of moles of chlorine = 28.33 g / 35.45 g/mol = 0.799 mol

Number of moles of oxygen = 39.17 g / 16.00 g/mol = 2.448 mol

Potassium:Chlorine:Oxygen = 0.793/0.793 : 0.799/0.793 : 2.448/0.793

Potassium:Chlorine:Oxygen = 1 : 1.007 : 3.086

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The negative sign indicates that gas G is actually decreasing, but the magnitude of the rate of change is given as 0.354 atm/s (to three significant figures).

What is magnitude?

The term magnitude refers to the size or amount of a quantity, without regard to its direction or sign. Magnitude is often represented as a scalar value, which means that it only has a magnitude and no associated direction.

To determine the rate at which gas G is increasing, we need to use the stoichiometry of the reaction and the given rate of change of gas E to calculate the rate of change of gas G. From the balanced chemical equation, we can see that 3 moles of gas E are consumed for every 2 moles of gas G that are produced:

2d(g) + 3e(g) + f(g) ↔ 2g(g) + h(g)

Thus, the rate at which gas G is increasing is related to the rate at which gas E is decreasing by the ratio of their stoichiometric coefficients:

(rate of change of gas G) = (2/3) x (rate of change of gas E)

Plugging in the given rate of change of gas E, we get:

(rate of change of gas G) = (2/3) x (-0.531 atm/s) = -0.354 atm/s

The negative sign indicates that gas G is actually decreasing, but the magnitude of the rate of change is given as 0.354 atm/s (to three significant figures).

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The full electron configuration for this element is: [tex]1s^{2}[/tex][tex]2s^{2} 2p^{3s} 3p^{2}[/tex] ,this corresponds to the element aluminum (Al).

An electronic configuration is a description of how electrons are distributed among the energy levels and sublevels of an atom or ion. It indicates the number of electrons in each sublevel of an atom, starting with the lowest energy level (1s) and moving up in energy through each subsequent level and sublevel.

For example, the electronic configuration of hydrogen is 1s^1, indicating that there is one electron in the 1s sublevel of the first energy level. The electronic configuration of oxygen is 1s^2 2s^2 2p^4, indicating that there are two electrons in the 1s sublevel, two electrons in the 2s sublevel, and four electrons in the 2p sublevel of the second energy level.

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KCl would be the substance can dissolve only (is saturated at) 40 g in 60°C water

Option C  is correct.

A supersaturated solution is described as a solution that contains more than the average solvent that can be dissolved at a given temperature

​ At 60ºC, the solubility of KCl is about 42g/100mL of water. Therefore, since we have 40g of KCl that were dissolved in less than 100mL of water, the solution would be supersaturated.

In conclusion, supersaturation occurs with a solution when the concentration of a solute exceeds the concentration specified by the value of solubility at equilibrium.

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The electrophilic nitration of benzoic acid involves the attack of the nitronium ion ([NO2]+) on the benzene ring of the benzoic acid. The intermediate formed is a positively charged arenium ion, which can resonate between different resonance forms.

One of the resonance forms of the intermediate cation is shown below:

   O                        O

  //                        //

 /C+           <----->     /C

 \                          \

  \                          O-

In this resonance form, the positive charge is delocalized over the carbon atom and the adjacent oxygen atom. The resulting resonance hybrid is stabilized by the delocalization of the positive charge over the ring, which lowers the overall energy of the system.

The nitronium ion can attack at the meta position, which leads to the formation of 1,3-nitrobenzoic acid. The attack at the ortho or para positions would lead to the formation of other isomeric products.

The reason for the selective formation of 1,3-nitrobenzoic acid is due to the resonance stabilization of the intermediate cation. The meta position is less hindered than the ortho and para positions, and the resonance form shown above places the positive charge at the meta position. Therefore, the attack of the nitronium ion at the meta position is favored over the other positions. Additionally, the resonance form shown above places the negative charge of the carboxylate group at the para position, which makes it less favorable for the nitronium ion to attack at this position.

Overall, the resonance stabilization of the intermediate cation favors the selective formation of 1,3-nitrobenzoic acid in the electrophilic nitration of benzoic acid.

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The value of Kp for the given reaction is 100.4

The equilibrium constant expression (Kp) for the given reaction is:

Kp = (P_SO₃)² / (P_SO₂)² × (P_O₂)

where P is the partial pressure of the gas in atm.

We can use the given information to calculate the partial pressures of each gas at equilibrium.

The initial pressure of each gas is 1.00 atm (since each mole of gas occupies the same volume, and the total volume is 1.00 L).

At equilibrium, each mole of SO₂ that reacts produces 1 mole of SO₃. Therefore, the partial pressure of SO₃ at equilibrium is:

P_SO₃ = 0.919 mol / 1.00 L = 0.919 atm

Since two moles of SO₂ react for every one mole of O₂, the partial pressure of SO₂ at equilibrium is:

P_SO₂ = (1.00 mol - 0.919 mol) / 1.00 L = 0.081 atm

Partial pressure of O2 at equilibrium is:

P_O₂ = (1.00 mol - 0.919 mol) / 1.00 L = 0.081 atm

Now we can substitute these values into the equilibrium constant expression:

Kp = (0.919)² / (0.081)² × (0.081) = 100.4

Therefore, the value of Kp for the given reaction is 100.4 (with no units, since the units cancel out).

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To find the molecular formula of an unknown compound from mass percent data, a series of steps must be taken in the correct order. These steps are as follows:

Convert mass percent to grams: The first step is to convert the mass percent of each element in the compound to grams. This can be done by assuming that there is 100 g of the compound and using the mass percent to calculate the mass of each element in grams.

Convert grams to moles: Next, the mass of each element in grams is converted to moles using the molar mass of the element. The molar mass is found on the periodic table and is the mass of one mole of the element in grams.

Determine the empirical formula: The empirical formula is the simplest whole number ratio of atoms in a compound. To find the empirical formula, divide the number of moles of each element by the smallest number of moles. If the resulting numbers are not whole numbers, multiply all the numbers by the smallest whole number that will make them all whole numbers.

Determine the molecular formula: The molecular formula is the actual number of atoms of each element in a molecule. To find the molecular formula, divide the molecular weight of the compound by the empirical formula weight. This will give the number of empirical formula units in the molecular formula. Then, multiply the subscripts of the empirical formula by this number to get the molecular formula.

In summary, the necessary steps for finding the molecular formula of an unknown compound from mass percent data are: converting mass percent to grams, converting grams to moles, determining the empirical formula, and determining the molecular formula. These steps should be carried out in the order listed for an accurate and efficient determination of the molecular formula.

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To find the amount of gas in moles, we can use the Ideal Gas Law, which states that PV = nRT, where P is the pressure, V is the volume, n is the number of moles, R is the gas constant, and T is the temperature in Kelvin.

Rearranging the equation to solve for n, we get:

n = PV / RT

Plugging in the given values, we get:

n = (2 atm) * (20 L) / (8.31 J/mol*K * 400 K)

Converting atm to Pa:

n = (2 * 101325 Pa) * (20 L) / (8.31 J/mol*K * 400 K)

Converting liters to cubic meters:

n = (2 * 101325 Pa) * (0.02 m^3) / (8.31 J/mol*K * 400 K)

Solving the equation:

n = 0.077 mol

So there are approximately 0.077 moles of gas in the 20-liter container at a pressure of 2 atm and a temperature of 400 K.

Answer:

The correct Answer IS B

Explanation:

Since B has 5 figures, and all the number are other than zero

Hope i Helped

Answer: I believe the answer is B). 36,238 due to having 5 Different place values all different than zero

Answer:

1 mol CO2

Explanation:

3 mol CH4 * [tex]\frac{1 mol CO2}{1 Mol CH4}[/tex] = 3 mol of CO2

2 mol O2 * [tex]\frac{1 mol CO2}{2 mol O2}[/tex] = 1 mol CO2

For Example: You make steak dinners and each plate has to have 1 steak and 2 potatoes. You have 3 steaks (CH4) but only 2 potatoes (O2). With only the steak you could make three dinners, but you are limited to only be able to make one plate (Mole of CO2) because you only have 2 potatoes.

A metal(II) ion concentration of 0.01 mol/L with a molar mass of 58.93 g/mol results in a concentration of the metal(II) ion in units of mg/L (ppm) of 589.3 mg/L (ppm).

One mole of a substance occupies a certain amount of space (designated by the symbol Vm) at a specific temperature and pressure. It is determined by dividing the substance's molecular mass (M) by its density () at the specified temperature and pressure. The SI unit for it is the cubic meter per mole (m3/mol). Cubic meters per mole (m3/mol) is the SI unit for molar volume. The moles per liter of a solution—the measurement of concentration molarity—are referred to as "molars" in this context. The phrase is most frequently used in chemistry to refer to a solute's molar concentration in a solution. Molar concentration is measured in mol/L or M.

Thinking about things from the a molecular perspective is a beneficial quality. All perfect gases will have the same molar volume since they all have the same number density. This will be 22.4 L at STP. This is helpful if you want to visualize the separation of molecules in various samples.

A form's volume is essentially equal to the product of its area and height. Volume = Height x Base Area.

We can use the following formula to change the measurement of the metal(II) ion concentration from mol/L to mg/L (ppm):

concentration in mg/L = (concentration in mol/L) x (molar mass in g/mol) x 1000

The following formula can be used to change the concentration of the metal(II) ion from units of mol/L to mg/L (ppm), assuming the metal(II) ion has a molar mass of 58.93 g/mol:

concentration in mg/L = (concentration in mol/L) x (molar mass in g/mol) x 1000

concentration in mg/L = (concentration in mol/L) x (58.93 g/mol) x 1000

For instance, the concentration in mg/L would be as follows if the metal(II) ion concentration was 0.01 mol/L:

concentration in mg/L = (0.01 mol/L) x (58.93 g/mol) x 1000

concentration in mg/L = 589.3 mg/L or 589.3 ppm

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The relationship between NO2 and O3 concentrations is not straightforward and depends on a variety of factors. It is important to monitor both pollutants and take steps to reduce emissions of both NO2 and VOCs in order to improve air quality and reduce the risk of adverse health effects.

Since the question is incomplete and the graph that ought to be shown is missing, I will look at the relationship between NO2 concentration and ozone concentration in general.

The relationship between nitrogen dioxide (NO2) and ozone (O3) concentrations is complex and depends on a variety of factors such as sunlight, temperature, and the presence of other pollutants.

In general, high levels of NO2 can contribute to the formation of O3 through a complex series of chemical reactions involving other pollutants such as volatile organic compounds (VOCs). This process, known as photochemical smog formation, typically occurs during warm, sunny weather and can lead to elevated levels of O3 in urban and suburban areas.

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The correct matching is of pair of items is :

Known quantities in the problem --> Often provide useful conversion factors

Unknown quantity --> Will be the solution to the problem

Units of conversion factors --> Must cancel at each step, except for the units needed for the answer

Any units that do not cancel --> Are the units for the unknown quantity

1)The known quantities in the problem often provide useful conversion factors.

2)The unknown quantity will be the solution to the problem.

3)The units of conversion factors must cancel at each step, except for the units needed for the answer.

4)Any units that do not cancel are the units for the unknown quantity.

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Answer:Lymphatic malformations (LM), also known as lymphangiomas, are characterized by the overgrowth of lymphatic vessels during pre- and postnatal development.

Through electrostatic interactions, the oxyanion hole maintains the tetrahedral intermediate. The oxyanion hole is a location in an enzyme's active site that stabilises the reaction's intermediate during enzymatic processes.

An attribute of enzymes that catalyse processes involving the production of tetrahedral intermediates is the oxyanion hole. It is distinguished by a collection of hydrogen-bonding amino acid residues that are positioned to stabilise the intermediate's developing negative charge on the oxygen atom. The breakdown of the link between the substrate and the leaving group is what causes this negative charge. The tetrahedral intermediate can be stabilised locally in the oxyanion hole, lowering the energy barrier for the reaction and accelerating the entire process. Many enzymes, including serine proteases, lipases, and many more, share the oxyanion hole.

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The solvent used for recrystallization solvent for this lab exercise is toluene.

Recrystallization is defined as a physical method which is used to purify chemicals based on their different solubility's. This process is completed by heating the material to dissolve the compound with impurities with the a mixture of a suitable solvent.

Generally, toluene is classified as a very good solvent because, unlike water, it can dissolve many organic compounds. In manufacture of many commercial products, toluene is used as a solvent that is present in paint thinners, nail polish remover, glues, and correction fluid.

Hence, the solvent used for recrystallization solvent for this lab exercise is toluene.

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