as you move across a period, you will recall that the radius decreases. why do you think a decrease in atomic radius would result in a greater ionization energy?

Light makes everything visible but it allows us to see because our eyes are sensitive to light and our brains process the light signals that went into our eyes.

This is also known as visible light and it is referred to as electromagnetic radiation that can be perceived by the human eye.

It is visible by organisms because the eyes are sensitive to it such that when it hits an object, it is reflected back into our eyes, and that allows us to see the object.

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The full question;

Why does light make everything visible when it is the source of light itself or when it's blank off something else?

Palmitate, Laurate, and Arachidate: (2.1, 1.6, and 2.6) nm

Clarification:

The C-C bond measures 1.5 A°, or 0.15 nm.

Tetrahedron bond angle = 109 °C

Trigonometrically, the distance between the first and third carbons in an acyl chain is 0.26 nm, while the distance between the first and second carbons is 0.26/2 = 0.13. (Length extended by each methylene group)

Palmitate's (16 carbon) fully expanded length is therefore equal to 16*0.13 or ~2.1 nm.

Similar to this, the length of a fully expanded laurate (12 carbon) is equal to 12*0.13 and is 1.56 nm or ~1.6nm.

Arachidate (20 carbon) fully expanded length equals 20*0.13 = 2.6 nm.

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To calculate the osmotic pressure of a solution made by dissolving 9.37 g of glucose in 51.5 ml of solution at 19.6 degrees Celsius, you need to use the van't Hoff equation.

The equation is: P = (i x R x T) / (M x V), where i is the number of particles of solute (in this case, glucose molecules), R is the ideal gas constant (8.314 J/molK), T is the absolute temperature (in Kelvin, so 19.6 degrees Celsius is 292.7 K), M is the molar mass of the solute (180.16 g/mol for glucose), and V is the volume of the solution (in liters, so 51.5 mL is 0.0515 L).

Plugging these values into the equation gives us P = (2 x 8.314 x 292.7) / (180.16 x 0.0515) = 3.6 atm.

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Add [tex]6.263 grams[/tex] of potassium chloride to 91 grams of water to get a [tex]0.874m[/tex] solution.

The molality of a solution is defined as the number of moles of solute dissolved per kilogramme of the solvent.

[tex]Molarity=\frac{n}{W}[/tex]

where,

W = kg of solvent weight and

n = moles of a solute

moles of solute =[tex]\frac{given mass}{molar mass}[/tex]

                         [tex]=\frac{xg}{74.5g/mol}[/tex]

Solvent mass: 91 g, or [tex]0.091 kg[/tex] (1 kilogramme Equals 1000 g).

Now that all the supplied numbers have been combined using the molality formula, we receive

[tex]0.874=\frac{x}{74.5g/mol*0.091kg}[/tex]

[tex]x= 6.263 g[/tex]

In order to produce a [tex]0.874m[/tex] solution,[tex]6.263 grams[/tex] of potassium chloride must be added to 91 grammes of water.

Potassium chloride is a metal halide salt consisting of potassium and chlorine (KCl, or potassium salt). It has no fragrance and resembles a white or colourless vitreous crystal. The substance dissolves readily.

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In the valence shell of carbon, there are two unpaired electrons in two 2p orbitals. 180 is the angle between those two 2p orbitals.

It produces two sp orbitals, each of which has 50% s and 50% p character, through the hybridization of the 2s orbital and one of the 2p orbitals in this valence shell. The front lobes create a straight line facing away from one another, forming a 180° angle between the two orbitals. This creation reduces the electron repulsion in the valence shell.

One's' orbital and two 'p' orbitals of equivalent energy are combined to create the new hybrid orbital at, a combination of s and p orbitals developed in trigonal symmetry. The three hybrid orbitals remain in the same plane of the valence shell and are at a 180° angle to one another.

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a. The molecular orbital diagram for diatomic [tex]N_2[/tex] and [tex]Co[/tex] attached.

b. The similarities between the two[tex]MO[/tex]diagrams are that both molecules have bonding and anti-bonding orbitals, and both molecules have two electrons in the bonding orbitals. The differences between the two [tex]MO[/tex] diagrams are that [tex]N_2[/tex] has two electrons in the anti-bonding orbital and [tex]Co[/tex] has three electrons in the anti-bonding orbital.

c. [tex]Co[/tex] engages in σ-bonding with metal centres, which is a type of covalent bonding. Diagram attached.

What are diatomic [tex]N_2[/tex] and [tex]Co[/tex] molecular orbits?

Diatomic Nitrogen ([tex]N_2[/tex]) and Diatomic Carbon Monoxide ([tex]Co[/tex]) are two of the most common diatomic molecules. Both molecules consist of two atoms bonded together and are found in nature. [tex]N_2[/tex] is the most abundant molecule in Earth's atmosphere and is essential for life; it is responsible for the blue colour of the sky. [tex]Co[/tex] is a colourless, odourless, and toxic gas that is produced by combustion and is also found in the atmosphere.

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Burning sugar is a chemical change as airborne oxygen interacts with sugar, chemical bonds are destroyed and a new molecule is created.

Chemical changes occur when the molecular makeup is totally changed and a new product is created. New products are created via chemical modifications. Chemical alterations are both permanent and irreversible. It demonstrates that modifying or tweaking the experimental changes cannot undo chemical change. During a chemical change, the substance's mass varies. The mass is either added or subtracted. Energy changes occur when a chemical interaction occurs. The production of new bonds in products and the breaking of existing bonds in reactants involve different amounts of energy. When energy is released from the process, it is referred to as an exothermic reaction, and when it is absorbed, it is referred to as an endothermic reaction.

Hence, burning sugar is the chemical change as it changes it's molecular composition and completely new product is  formed.

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The above statement is accurate since at equilibrium there won't be any net flow of molecules through the cell membrane.

A cell is the smallest part of a material that keeps its makeup and characteristics. It is made up of two or maybe more atoms that are joined together by hydrogen bonds. Chemistry is built on molecules. The material symbol and a prefix stating the number of electrons are used to identify molecules.

Molecules are created when atoms come together. Two hydro (H) ions and one oxide (O) atom make up the three atoms that form up a water molecule. Because of this, water is sometimes abbreviated as H2O. There are millions of water molecules in a single drop of liquid.

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To obtain a 50% solution from a 30% solution, you need to add 100 mL of pure acid to 150 mL of the 30% solution.

Calculation-

Let's call the volume of the pure acid added to the 30% solution "V".

We know that the volume of the original solution is 150 mL, and that its concentration is 30%. The concentration of the final solution, after adding the pure acid, is 50%.

The concentration of a solution can be expressed as the ratio of the amount of solute to the total volume of the solution. To find the volume of pure acid required, we'll use this expression to create two equations: one for the initial solution, and one for the final solution.

For the initial solution, we have:

(30 g acid) / (100 mL solution) = (30 g acid) / (150 mL solution)

For the final solution, we have:

(50 g acid) / (100 mL solution) = (50 g acid) / (150 mL + V mL)

We can equate the two expressions for the concentration of the solution to find V:

(30 g acid) / (150 mL solution) = (50 g acid) / (150 mL + V mL)

Cross-multiplying and solving for V, we find:

V = 150 mL * (50 g acid) / (30 g acid) - 150 mL

V = 250 mL - 150 mL

V = 100 mL

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All throughout gastrointestinal tract, enzymes are produced throughout chemical digestion. Bacterial microbes damage various chemical bonds that hold organic stuff connected.

Any of the interactions responsible for the combination of particles into macromolecules, ions, crystals, and many other stability species whose make up the recognizable materials of everyday life are known as chemical reactions. The protonated forms of carbon monoxide, essential for the continuous, and hydrogen cyanide form the stronger bonds in biochemistry.

Chemical bonds, also known as electrical forces, can be categorized into five different groups: ionic, covalently, metallic, van den Waals, among hydrogen bonds. Ions are the building blocks of salts, which are bound through a chemical connection.

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To dilute the solution to 0.25 M, ml of water must be added to 300 ml of 0.75 M HCl is a. 600 mm.

To dilute the solution from 0.75 M to 0.25 M, we need to decrease the concentration of HCl (hydrochloric acid) in the solution. We can use the formula for dilution of a solution to calculate the volume of water that must be added:

C1 * V1 = C2 * V2

Where:

C1 = initial concentration (0.75 M)

V1 = initial volume (300 ml)

C2 = final concentration (0.25 M)

V2 = final volume (V1 + V added)

Rearranging the equation to solve for V added:

C1 * V1 = C2 * V2

V2 = (C1 * V1 ) / C2

     = 0.75 * 300 / 0.25

     = 900

Since V2 = V1 + V added then

V added = V2 - V1

              = 900 - 300

              = 600

Hence, total water that must be added is a. 600 ml

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The amount of energy required to heat the methanol to 100 degrees can be calculated using the equation Q=mcT. Water has a specific heat capacity of 4187 Joules per kilogram. ΔT = 100-43=57,.

The formula q = mcT, where m is the sample's mass, c is its specific heat, and T is the temperature change, can be used to determine how much heat a sample (q) gains or loses.

Q=mcT Q = m c T, where m is the mass of the substance and c is the substance's specific heat capacity, is the equation for the amount of heat needed to alter the temperature of an item in a single phase.

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The most important mineral for making the drywall used for the residential home construction is gypsum.

The soft sulfate mineral gypsum has the chemical formula CaSO4.2H2O and is made up of calcium sulfate dihydrate. It is widely mined, used as fertilizer, and the primary component of numerous plaster, sidewalk or blackboard chalk, and drywall products.

Gypsum may be found as beautiful crystals and as thick layers within shale. Gypsum deposits are never entirely pure. It is typically discovered in deposits that contain a mixture of limestone, sand, shale, anhydrite, and occasionally rock salt.

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A primary carbon is bonded to one other carbon atom(s), while a carbon atom bonded to four other carbon atoms is classified as quaternary.

Quaternary carbon refers to a carbon atom that is bonded to four other carbon atoms. This type of carbon is found in large and complex organic molecules, such as those in pharmaceuticals, fragrances, and natural products. The presence of quaternary carbon atoms in a molecule can greatly impact its properties and reactivity.

Quaternary carbon atoms are often located at the center of a molecule and form the backbone of the molecule, connecting other functional groups. This type of carbon atom is highly resistant to chemical reactions because of its symmetrical arrangement of bonds, making it less reactive than primary, secondary, or tertiary carbon atoms.

The use of quaternary carbon in drug design has become increasingly important in recent years as it is a crucial component in many drug molecules. The presence of quaternary carbon atoms in a molecule can improve its stability and chemical properties, making it more suitable for use in drugs.

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Complete Question: -

A primary carbon is bonded to ____ other carbon atom(s), while a carbon atom bonded to four other carbon atoms is classified as ______

Students who use correct scientific reasoning are Student 1 namely: If the reaction is not allowed to finish, the sodium bicarbonate will not decompose completely, making the final mass higher than the theory.Te corrct amswer is B.

If the sodium bicarbonate is not properly broken down, water and carbon monoxide will not be produced, which can be eliminated to lessen the product's mass. The product will therefore weigh heavier or have a bigger ultimate mass than predicted because of an incomplete reaction.

Given the aforementioned justifications, it is obvious that Student 2 is mistaken in this instance. This is not a scientific explanation in the instance of Student 3 and is merely a wild guess that isn't true in all circumstances.

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The most likely mode of decay for 90Sr is beta decay. 90Sr decays to 90Y with emission of a beta particle.

Beta decay occurs when a nucleus has too many neutrons relative to protons, making it unstable. In beta decay, a neutron transforms into a proton, electron, and antineutrino. The electron, also known as a beta particle, is ejected from the nucleus with high energy, while the proton stays inside the nucleus, increasing its atomic number by 1. As a result of this transformation, the atomic number of the parent nuclide (90Sr) increases by 1, transforming into the daughter nuclide (90Y). The daughter nuclide will have the same number of protons, but one more proton than the parent, making it a different element. This process increases the stability of the nucleus, decreasing its neutron-to-proton ratio and bringing it closer to the stability line of isotopes.

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A solution where additional solute can be dissolved without outside stress is called: unsaturated solution. This solution is part of solubility.

Solubility is the measure of how much of a substance may dissolve in a certain volume of solvent. The solubility in water is frequently stated as gram/100 mL. There are two types of solubility: saturated solution and unsaturated solution.

A saturated solution is one that has attained its maximal solubility. At this stage, adding extra solute will prevent it from dissolving in the solution.

Unsaturated solutions are those that have not reached their maximum solubility. This implies that even after adding more solute, the solvent would continue to dissolve the solute without outside stress .

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Basic structure The fundamental structure of a protein is only the arrangement of the amino acids in a polypeptide chain.

The folded structure of a protein is determined by the amino acid sequence within it. A protein's fundamental structure is defined as the particular arrangement of amino acids in the protein. A protein's three-dimensional architecture is determined by this sequence.

The term "secondary structure" describes the regular, local structure of the protein backbone that is stabilized by amide group hydrogen bonds that occur both within and outside of individual molecules. Secondary structures typically come in two different forms. The alpha helix is the most common.

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39K would be more abundant because its atomic mass is closest to the average atomic mass of potassium from the periodic table.

The chemical element potassium has the atomic number 19 and the letter K (which stands for kalium in Neo-Latin). It is a silvery-white metal that may be readily sliced with a knife because to its pliability. [6] Within seconds of exposure, potassium metal quickly combines with air oxygen to produce flaky, white potassium peroxide. It was initially separated from potash, which is made up of plant ashes and from which it gets its name. One of the alkali metals in the periodic table is potassium. These metals all have a single valence electron in the outer electron shell, which may be removed with ease to produce an ion with a positive charge (which combines with anions to form salts).Three isotopes of potassium make up natural potassium: potassium-39 (93.26%), potassium-41 (6.73%), and radioactive potassium-40 (approximately 0.01%); numerous synthetic isotopes have also been created. Typically, potassium-39 is 13.5 times more common than potassium-41.

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The absolute uncertainty delivered by the pipette (in ml) reported to the correct number of significant figures will be 0.05 ml.

The absolute uncertainty in this case would be 0.05 x 102 ml, as the volume is guaranteed to be delivered within 5% (0.05 x 102 ml) of the total volume (5.0 x 102 ml).

The number of significant figures for 5.0 x 102 ml is 3, so the absolute uncertainty should also be reported to 3 significant figures, which would be 0.05 x 102 ml = 0.05 ml.

Three key factors contribute to the uncertainty of the pipetted volume, u(V), including repeatability (u(V,rep), pipette calibration (u(V,cal), and temperature variation (u(V), which is the uncertainty owing to the temperature difference from 20 °C) (V,temp).

The estimation of the calibration uncertainty of the pipette is frequently expressed as the estimate of the probable maximum difference of the pipette volume from the nominal volume, expressed as x. (as was done in section 4.1). Typically, the producer provides it without providing any more details regarding its coverage probability or distribution function. In this situation, it is safer to assume that the rectangular distribution is valid and to divide the uncertainty estimate by the square root of three to obtain the standard uncertainty.

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According to research, carbonated water moisturizes your body equally as effectively as plain water. Your body cannot absorb carbonated water than plain water due to such solution carbon dioxide.

a continuing variation of a colloidal suspension of several or more chemicals in relative proportions up until what is known as the limit limiting solubility. Although concentrations of gases various solids are possible, the term "solution" is most frequently used to refer to the liquid condition of matter.

Each of the different phases of the matter can dissolved in yet another phase in a solution, which is a heterogeneous mixture of molecules. Solution chemistry is significant since the majority of nuclear reactions involve solids, liquids, or gases.

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The change in kinetic energy (ΔKE) is given by the equation ΔKE = [tex]1/2 * m * v^2[/tex], where m is the mass of the object and v is its change in velocity.

To find the change in kinetic energy, we need to know the initial and final velocity of the object, as well as its mass. If we are given this information, we can use the equation to find the change in kinetic energy. It is important to note that the change in kinetic energy can be positive or negative, depending on the direction of the velocity change. If the velocity of an object increases, its kinetic energy will also increase, and the change in kinetic energy will be positive. On the other hand, if the velocity of an object decreases, its kinetic energy will decrease, and the change in kinetic energy will be negative. In conclusion, to find the change in kinetic energy due to a movement, we need to know the mass of the object, its initial and final velocity, and use the equation ΔKE = [tex]1/2 * m * v^2[/tex].

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The dinitrogen oxide contains the 28.01 g of nitrogen in every 44.01 g of dinitrogen oxide. The mass of nitrous oxide can be formed from the 48.7 g of nitrogen is 76.57 g.

The mass of the dinitrogen oxide, N₂O = 28.01 g

The 28.01 g of the nitrogen is present in every 44.01 g of nitrous oxide

Mass of nitrous oxide from 48.7 g of the nitrogen is as follows :

28.01 g of the nitrogen is present in 44.01 g of nitrous oxide

48.7 g of the nitrogen  is present = (48.7 × 44.01 ) / 28.01  g of nitrous oxide.

48.7 g of the nitrogen  is present  = 76.57 g of the nitrous oxide.

Thus the mass of the nitrous oxide is 76.57 g formed from the 48.7 g of the nitrogen.

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Boiling water should be used to pre-warm both the stemless funnel and the filter paper because crystallization can occur at the funnel's opening and clog the lowest opening, preventing the filtrate's flow throughout the whole filtration process.

In the presence of concentrated hydrochloric acid, aniline can also be acetylated using acetic anhydride to produce acetanilide. Add acetic anhydride after dissolving aniline in hydrochloric acid, and mix thoroughly. Add water to the sodium acetate mixture.

Acetanilide is an artificial organic chemical that was first used in medicine in 1886 to treat fever. Soon after, its potency in reducing pain was established, and for decades, it was used instead of aspirin to treat common problems like headaches, menstrual cramps, and rheumatism.

Acetanilide is an artificial organic chemical that was first used in medicine in 1886 to treat fever. Soon after, its potency in reducing pain was established, and for decades, it was used instead of aspirin to treat common problems like headaches, menstrual cramps, and rheumatism. Because of the resonance systems that acetanilide suggests, it is a weak base. The substance serves as the basis for many medicinal capsules, including sulfanilamide, a topical antibacterial and antifungal drug.

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It is false that while cinnamaldehyde contains more carbon atoms than limonene, it is less polar. Limonene comprises 10 carbons, compared to 9 for cinnamaldehyde.

Foods like sweets and cookies often contain cinnamaldehyde as a flavoring, and it also serves as an odorant in perfumes. Additionally, it has been employed to get rid of mosquitoes and deter mosquito larvae. It is appropriate for sustainable production because it happens naturally.

The chemical cinnamaldehyde is found naturally in the skin of cardamom trees and some other Cinnamomum species, including camphor and cassia. The above trees are the actual source of cardamom, and cinnamaldehyde makes up roughly 90% of the active ingredient of cinnamon bark. As a fungicide, cinnamaldehyde is also employed.

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Keep the temperature at least 68 degrees fahrenheit on the thermostat and ensure that pipes are adequately insulated to keep pipes from freezing.

Frosty pipes: If a portion of your piping system is exposed, look to see if any surface frost has accumulated. If it has, your pipe most likely has frozen.

Unusual odours If a drain or valve begins to produce strange or unpleasant odours, there may be a frozen pipe. The only location the odours may escape if your pipes are obstructed by ice is back toward your house.

Lack of water is among the most glaring indications that a pipe has frozen. When you turn on a faucet, when nothing or a very small stream of water is coming out, the pipe most definitely has an ice block in it.

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The endothermic reaction taking place at constant pressure: q = + , ΔH = +, w = +

Endothermic reactions are reactions that absorb heat (heat is removed from the surroundings to the system) Endothermic reactions (endo- is the prefix meaning "into"), in which heat must be transferred to the system by the surroundings.

According to the condition given in the question we have given the reaction.

                             3O₂ (g) → 2O₃ (g)

The reaction is endothermic which means heat is absorbed.

For any endothermic reaction, the sign is POSITIVE.

Now, if we see moles, the number of moles from the reactant side to the product side is decreasing.

If the number of moles is decreasing, then the volume should decrease.

If the volume is decreasing, it indicates that the work is done on the system.

If the work is done on the system then the sign should be always POSITIVE

Now as the heat is absorbed so the sign of q should be POSITIVE

Therefore, the correct option is q = +, ΔH = +, w = +

Your question is incomplete but most probably your full question was:

What are the signs of q, w, ΔH for this endothermic reaction taking place at constant pressure? 3O2 (g) → 2O3 (g)

The correct answer is E.

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The correct option is B-2.  2 water molecules are produced in the reaction.

According to the given chemical reaction i.e.

2O2 + CH4 —> (x)H2O + CO2 we have to find the number of molecules of water so that all the elements in the reaction get balanced out.

Carbon atoms are equal on both sides so we have to equalize hydrogen atoms first. If we have 4 atoms of hydrogen on the left side it should be equal to the right side.

If we add two molecules of H20 the equation can be balanced.

After balancing we get,

2O2 + CH4 —> 2H2O + CO2

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The atom with the largest number of neutrons in the nucleus is B. 157Dy157. The number of neutrons in an atom can be determined by subtracting the atomic number (number of protons) from the atomic mass (number of protons and neutrons).

In the case of 157Dy157, it has an atomic number of 66 and an atomic mass of 157, meaning it has 91 neutrons. The other options, 148Eu148, 149Nd149, 162Ho162, and 159Gd all have fewer neutrons. The number of neutrons in an atomic nucleus can be determined by subtracting the number of protons (atomic number) from the atomic mass (number of protons and neutrons). The atomic number of an element is the same for all isotopes of that element and determines the element's chemical properties, while the atomic mass can vary depending on the number of neutrons present in the nucleus. The number of neutrons in an atom can affect its stability, as well as its behavior in certain reactions. Among the options given, 157Dy157 has the largest number of neutrons, with an atomic number of 66 and an atomic mass of 157, meaning it has 91 neutrons in its nucleus. The other options, 148Eu148, 149Nd149, 162Ho162, and 159Gd all have fewer neutrons in their nuclei.

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The 9,10-dihydroanthracene 9 10 alpha beta succinic acid anhydride Melting point is 261-262°C and MW is 276.2861 g/mol.

Anhydrides are readily hydrolyzed at high temperatures in the presence of atmospheric water vapor. To prevent this, prepare a drying tube by inserting a small amount of cotton, some CaCl2, and some more cotton to seal the end. Weight out 0.240 g anthracene and 0.120 g of maleic anhydride. Once all the glassware is assembled together and clamped to the monkey bars, raise the hotplate on the lab jack and begin heating. A 1:1 molar mixture of anthracene and maleic anhydride usually melts at  approximately 210 °C, so if your sample does not melt, very slowly increase the setting of the hotplate until it does melt some. (It may not completely liquefy.) Note that heating the reaction mixture beyond ~260 °C increases your likelihood of obtaining unwanted oxidized side products, so take your time and increase the temperature slowly. Once the temperature is somewhere between 210-260 °C, the reaction will proceed very quickly and should be complete within 15 minutes at most. Watch as the walls of the conical vial become cloudy with crystal formation. After the reaction is complete, lower and remove the hotplate, and allow the conical vial to cool slowly to RT. When it is cool enough to touch, remove the vial and examine the crystals, noting the different layers of crystals that may have formed. If you have distinct layers, the highest layer in the vial should be white and highly crystalline; this should be your product -- 9,10-dihydroanthracene-9,10-α,β-succinic acid anhydride in relatively pure form. The remaining solid in the vial is likely to be yellow-green to dark green in color and is also mostly 9,10-dihydroanthracene-9,10-α,β-succinic acid anhydride.

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