Refer to your Pink and Say book for a complete version of this text. Which detail from the story best explains to your Pink and Say book for a complete version of this text.


A:I took up and run away from my unit

B:“Then fever must have took me good, ‘cause I could feel a cool, sweet-smelling quilt next to my face.”


C:“’Bein’ here, boy, means you gotta be dead,’ the voice said as he gave me a drink from his kit.”


D:“Being just a lad, I was wishin’ I was home.”

I also picked a random subject cause i didnt see ELA/Reading

The theoretical yield of H2O in this reaction is 160.75 g. Theoretical yield refers to the maximum amount of product that can be obtained in a chemical reaction based on the amount of limiting reactant. In this case, hydrogen gas is the limiting reactant as it is the one that gets completely consumed in the reaction.

To calculate the theoretical yield of H2O, we need to first calculate the amount of H2 used in the reaction. From the given information, we know that 18 g of H2 was used. The balanced chemical equation for the reaction is:

2H2 + O2 → 2H2O

This means that for every 2 moles of H2 used, 2 moles of H2O is produced. Therefore, we can use stoichiometry to calculate the moles of H2O produced:

Moles of H2 = 18 g / 2.016 g/mol = 8.93 mol
Moles of H2O = Moles of H2 x (2 moles of H2O / 2 moles of H2) = 8.93 mol

Finally, we can calculate the theoretical yield of H2O in grams:

Theoretical yield of H2O = Moles of H2O x Molar mass of H2O
= 8.93 mol x 18.015 g/mol
= 160.75 g

Therefore, the theoretical yield of H2O in this reaction is 160.75 g.

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The ideal gas law is an important equation that describes the behavior of gases, and for solving ideal gas problems.

To help remember the ideal gas law, one strategy is to use the acronym PV = nRT

Where;

This acronym can help you remember the variables involved in the equation and their relationships.

So if you're not sure how to figure out the relationship between properties of an enclosed gas, one strategy you can use is to apply the ideal gas law. You can rearrange the equation to solve for the variable you're interested in.

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The amount of 1.20 m NaOH that will be needed to neutralize 225 ml of battery acid is 1125 ml.

The balanced chemical reaction is given as,

H₂SO₄ (aq) + 2 NaOh (aq) → 2 H₂O + Na₂SO₄ (aq)

Generally molarity is defined as one of the most widely used unit of concentration and it is denoted by M.

By formula of molarity,

V1M1 n2 =  V2M2n1

V=  volume

M =  concentration  in  mole  per   liter

n =  number  of  moles

V1 =?

V2 =  225  ml  

M1 = 1.2  M

M2 =  3 m  

n1 =2  moles

V1   is  therefore  =  ( 225  x3  x2 )  /1.2  =  1125  ml

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The mass of KF in the solution is 59.3 g. The correct answer is 59.3 g which is in option A as  the formula for calculating the mass of solute in a solution is: mass of solute = molarity × volume × molar mass.

mass of solute = molarity × volume × molar mass

First, one needs to calculate the number of moles of KF in the solution:

molarity = number of moles / volume

Rearranging this equation gives :

number of moles = molarity × volume

number of moles = 2.00 M × 0.510 L

number of moles = 1.02 mol

The molar mass of KF is 58.10 g/mol. Now the mass of KF in the solution is calculated:

mass of KF = 1.02 mol × 58.10 g/mol

mass of KF = 59.3 g

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It can be estimated that in the one-dimensional elastic collision, almost all of the electron's initial kinetic energy is transferred to the kinetic energy of the hydrogen atom.

What is the transfer of kinetic energy?

Kinetic energy transfer is the procedure through which energy related to an object's motion is transferred from one object to another. Kinetic energy, which is determined by an object's mass and velocity, is the energy that an object has as a result of its motion.

Kinetic energy can be exchanged between two things when they come into contact with one another, such as when they collide or are subjected to forces. Different techniques, such as physical contact, electromagnetic forces, or gravitational forces, can be used to transfer kinetic energy.

Momentum and kinetic energy are both conserved in an elastic collision. The total kinetic energy of an electron, before it collides with a stationary hydrogen atom, is the same as the total kinetic energy after it collides.

The hydrogen atom has no initial kinetic energy because it is initially at rest. Any kinetic energy that is measured following the impact must thus have come from the electron.

We can infer that the hydrogen atom gains the majority of the kinetic energy transmitted during the collision because its mass is significantly more (1840 times) than the mass of the electron. This is due to the fact that the change in velocity for the electron is far larger than the change in velocity for the much heavier hydrogen atom.

Therefore, it can be estimated that in the one-dimensional elastic collision, almost all of the electron's initial kinetic energy is transferred to the kinetic energy of the hydrogen atom.

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The electron configuration of an atom provides information about the arrangement of electrons in its various energy levels or orbitals. Based on this information, it is possible to deduce the identity of an element.

The number of electrons in an atom's outermost energy level, known as its valence electrons, determines many of its chemical properties. The electron configuration reveals the number of valence electrons and their distribution in orbitals. For example, if an element has a completely filled valence shell, it is likely to be inert and have little reactivity. Alternatively, if an element has only one or a few valence electrons, it is more likely to form bonds with other unit to achieve a stable electron configuration. Additionally, the electron configuration can help determine the element's position in the periodic table and its chemical properties, such as its tendency to form ions or react with other elements. Overall, the electron configuration provides important clues about the identity and chemical behavior of a molecule.

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Boyle's Law, Charles' Law, and Avogadro's Law can be derived from the ideal gas law, which is expressed as:

PV = nRT , where:

P = pressure

V = volume

n = number of moles of gas

R = ideal gas constant

T = temperature

Let's see how each law can be derived:

Boyle's Law:

Boyle's Law states that at constant temperature, the pressure of a given amount of gas is inversely proportional to its volume. Mathematically, it can be written as:

P₁V₁ = P₂V₂

Assuming the amount of gas (n) and temperature (T) remain constant, we can rewrite Boyle's Law using the ideal gas law:

(P₁/nT) × V₁ = (P₂/nT) × V₂

By canceling out the constant factors (n and T) on both sides, we obtain:

P₁V₁ = P₂V₂

This equation represents Boyle's Law, which demonstrates the inverse relationship between pressure and volume at constant temperature.

Charles' Law:

Charles' Law states that at constant pressure, the volume of a given amount of gas is directly proportional to its temperature. It can be expressed as:

V₁/T₁ = V₂/T₂

Assuming the amount of gas (n) and pressure (P) remain constant, we can rearrange the ideal gas law to obtain:

(V₁/nP) × T₁ = (V₂/nP) × T₂

By canceling out the constant factors (n and P) on both sides, we get:

V₁/T₁ = V₂/T₂

This equation represents Charles' Law, showing the direct relationship between volume and temperature at constant pressure.

Avogadro's Law:

Avogadro's Law states that at constant temperature and pressure, equal volumes of different gases contain an equal number of molecules (or moles). It can be written as:

V₁/n₁ = V₂/n₂

Using the ideal gas law, we can rearrange it as:

(V₁/P₁) × (T/P₁) × n₁ = (V₂/P₂) × (T/P₂) × n₂

Canceling out the constant factors (P₁/P₁, T/T) and rearranging the equation, we have:

V₁/n₁ = V₂/n₂

This equation represents Avogadro's Law, demonstrating that equal volumes of gases contain an equal number of moles at constant temperature and pressure.

In summary, Boyle's Law, Charles' Law, and Avogadro's Law can all be derived from the ideal gas law by manipulating the equation while holding certain variables constant.

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The pH of the 0.15 M acetic acid/0.39 M sodium acetate solution is approximately 5.15.

To determine the pH of a 0.15 M acetic acid/0.39 M sodium acetate solution with a Ka of 1.8 x 10^-5, you need to use the Henderson-Hasselbalch equation, which is pH = pKa + log([base]/[acid]).

First, find the pKa of acetic acid using the Ka value given:

pKa = -log(Ka) = -log(1.8 x 10^-5) = 4.74

Next, determine the ratio of the concentration of the acetate ion ([base]) to acetic acid ([acid]):

[base]/[acid] = 0.39/0.15 = 2.6

Finally, plug in the pKa and ratio values into the Henderson-Hasselbalch equation:

pH = 4.74 + log(2.6) = 4.74 + 0.41 = 5.15

Therefore, the pH of the 0.15 M acetic acid/0.39 M sodium acetate solution is approximately 5.15.

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Mendeleev's work on developing the periodic table of elements was a significant achievement in the field of chemistry.

While he made great strides in organizing the known elements by their atomic properties and characteristics, he also realized that the table could never be perfect. This was due to the fact that not all of the elements had yet been discovered during Mendeleev's time. He understood that there were gaps in the table where new elements would eventually be discovered, and that the properties of these elements could not yet be predicted.
Despite this limitation, Mendeleev's work on the periodic table laid the foundation for future discoveries and advancements in chemistry. His organizational system enabled scientists to better understand the properties and behavior of various elements, leading to the development of new technologies and innovations. In the end, Mendeleev's realization that the table could never be perfect only served to further inspire future scientists to continue exploring the properties and characteristics of the elements.
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The minimum energy deposited by the particle of ionizing radiation is 96,600 eV.

To find the minimum energy deposited by the particle of ionizing radiation, we can use the fact that 21.0 eV is required to create each ion pair and the particle created 4600 ion pairs. Thus, the total energy deposited would be:

4600 ion pairs x 21.0 eV per ion pair = 96,600 eV

Therefore, the minimum energy deposited by the particle of ionizing radiation is 96,600 eV.

To determine the minimum energy deposited by the particle of ionizing radiation, you can use the formula:

Minimum energy = Number of ion pairs × Energy per ion pair

In this case, the particle creates 4,600 ion pairs, and it requires 21.0 eV of energy to create each ion pair. So, the minimum energy deposited can be calculated as:

Minimum energy = 4,600 ion pairs × 21.0 eV/ion pair = 96,600 eV

Thus, the particle of ionizing radiation deposited a minimum of 96,600 electron volts (eV) of energy in the gas inside the Geiger tube.

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The original element, bismuth-213 (Bi-213), undergoes a nuclear transformation, reducing its atomic number by two units and its atomic mass by four units, leading to the formation of thallium-209.

The isotope bismuth-213 (Bi-213) undergoes alpha decay, a type of radioactive decay, by emitting an alpha particle from its atomic nucleus. An alpha particle is composed of two protons and two neutrons, which is equivalent to a helium-4 nucleus. During alpha decay, the bismuth-213 nucleus loses the alpha particle, reducing its atomic number by two units and its atomic mass by four units. The atomic number represents the number of protons in the nucleus, determining the element's identity. Bismuth has an atomic number of 83, so when it emits an alpha particle, the resulting element will have an atomic number of 81. This new element is thallium (Tl). Therefore, the isotope bismuth-213 transforms into thallium-209 (Tl-209) as a result of the emission of an alpha particle. The decay process can be represented as follows:

Bismuth-213 (Bi-213) -> Thallium-209 (Tl-209) + Alpha particle

Overall, when bismuth-213 undergoes alpha decay, it leads to the formation of thallium-209 as the new element, with the emission of an alpha particle.

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Answer:

(d) Carbon

Explanation:

Only 7 elements exists as a diatomic molecule. Hydrogen, Oxygen, Nitrogen, Fluorine, Chlorine, Bromine, and Iodine, which can be remembered as HONCLBRIF or HONFCLBRI

The atomic theory proposed by Dalton in the early 19th century was a significant milestone in the field of chemistry. It suggested that atoms were the fundamental building blocks of matter and that they combined in fixed ratios to form compounds.

Over time, the theory has undergone several modifications and expansions as new scientific discoveries have been made. However, it has not been entirely discarded or found to be plagiarized. Today, the basic principles of Dalton's atomic theory are still widely accepted and taught in chemistry classrooms around the world, although they have been refined and updated with modern scientific advancements.

The atomic theory proposed by John Dalton has not been totally discarded, accepted unchanged, or found to be plagiarized. Instead, it has been expanded and modified over time. Dalton's original theory laid the foundation for our understanding of atomic structure, but further scientific discoveries have led to more comprehensive atomic models. These modifications include the discovery of subatomic particles, such as electrons, protons, and neutrons, as well as the development of quantum mechanics to explain their behavior. Despite these updates, Dalton's theory remains a crucial part of the history of atomic science.

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If a compound is impure, containing traces of starting material or byproduct, the melting point is expected to be lower than the melting point of a pure compound.

This is because impurities in a compound disrupt the crystal lattice structure, which causes the melting point to decrease. In a pure compound, the molecules are arranged in a uniform and regular pattern, allowing for efficient packing and strong intermolecular forces. Impurities introduce disorder and randomness into the crystal lattice, creating voids or vacancies that weaken the intermolecular bonds. As a result, less energy is required to overcome the intermolecular forces and the compound melts at a lower temperature. Therefore, the melting point of an impure compound can be used as an indication of its purity. The more impurities a compound has, the lower its melting point will be.

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The chemical reaction CO2 + H2O = HCO3- + H+ is an important reaction in the regulation of the pH of blood and other bodily fluids.

This reaction occurs in the red blood cells and involves the conversion of carbon dioxide (CO2) and water (H2O) into bicarbonate ion (HCO3-) and hydrogen ion (H+).

An increase in CO2 will lead to an increase in the concentration of H+ ions and HCO3- ions in the blood.

This is because CO2 is an acidic gas, and when it dissolves in water, it forms carbonic acid (H2CO3). Carbonic acid then dissociates into H+ ions and HCO3- ions, increasing the concentration of both ions in the blood.

This increase in H+ ions will cause a decrease in the pH of the blood, making it more acidic.

This increase in acidity can have negative effects on the body, such as interfering with enzyme activity and altering protein structure.

The body has mechanisms in place to regulate the pH of the blood and other bodily fluids, such as the respiratory and renal systems, which can help to compensate for changes in CO2 levels and maintain a stable pH.

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This thin atmosphere means that Mercury has a very low ability to retain heat, causing a significant change in temperature between its day and night.

Mercury is the closest planet to the sun in our solar system and has a very thin atmosphere. This thin atmosphere means that Mercury has a very low ability to retain heat, causing a significant change in temperature between its day and night. During the day, the side of the planet facing the sun can reach temperatures of up to 800 degrees Fahrenheit (430 degrees Celsius) due to the intense heat and radiation from the sun. However, when Mercury rotates away from the sun and enters night, the temperatures on the planet can plummet to as low as minus 290 degrees Fahrenheit (-180 degrees Celsius). This large temperature swing is due to Mercury's slow rotation and lack of atmosphere, which allows heat to escape quickly into space. The slow rotation means that each side of Mercury is exposed to extreme temperatures for an extended period of time before rotating to the opposite side. Additionally, Mercury's lack of an atmosphere means there is no insulation to trap heat, making the planet's temperature more susceptible to changes in solar radiation.

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Answer: 6.65*10^-3

Explanation:

The reaction below has the products and reactants reversed, so the Kp will be inversed (Kp^-1). The coefficients are also halved, so the Kp^-1 will be to the power of 1/2. This means that the Kp for the reaction below is [tex](K_p^{-1})^{1/2}[/tex] = [tex]K_p^{-\frac{1}{2} }[/tex] = [tex]\frac{1}{\sqrt{K_p}}[/tex] = [tex]\frac{1}{\sqrt{2.26*10^4}}[/tex] = 6.65*10^-3

This character possesses unique traits and abilities that align with your personality and characteristics, making you a perfect match for that specific Crystal Gem.

Each Crystal Gem possesses distinct qualities and powers. By answering a series of questions about your preferences, traits, and behaviors, the quiz generates a result that matches you with a particular Crystal Gem. For example, if you are identified as Garnet, it means you share Garnet's strong and stoic nature, as well as her ability to see into the future. If you are identified as Amethyst, you may share her playful and spontaneous personality, along with her shapeshifting abilities. If you are identified as Pearl, you may exhibit Pearl's intellect, grace, and proficiency with swords. The result of the quiz is determined by an algorithm that assigns certain character traits and responses to each Crystal Gem. Based on your answers, the algorithm calculates the best match for you. It is a fun and entertaining way to connect with the beloved characters of Steven Universe and explore which Crystal Gem resonates with your personality.

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The final volume of the solution would be 1200 mL when a 500.0 mL solution of 2.40 M KCl is diluted to 1.00 M as dilution involves adjusting the concentration by adding a solvent (usually water) while keeping the number of moles constant.

M₁V₁ = M₂V₂

Where: M₁ = initial concentration, V₁ = initial volume ,M₂ = final concentration, V₂ = final volume

In this case, 

M₁ = 2.40 M (initial concentration), V₁ = 500.0 mL (initial volume) ,M₂ = 1.00 M (final concentration) ,V₂ = ? (final volume)

M₁V₁ = M₂V₂

(2.40 M)(500.0 mL) = (1.00 M)(V₂)

Now, for V₂:

V₂ = (2.40 M)(500.0 mL) / (1.00 M)

V₂ = 1200 mL

The final volume of the solution would be 1200 mL 

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On a cold day, a person with a lung capacity of 2.2 L must breathe in 1.97 L of air at 276 K to fill their lungs. The correct option is B) 1.97 L.

To solve this problem, we will use the combined gas law formula, which is P1V1/T1 = P2V2/T2.

In this case, the pressure (P) remains constant, so we can simplify the formula to V1/T1 = V2/T2.

We know the lung capacity (V2) is 2.2 L, the body temperature (T1) is 309 K, and the outside air temperature (T2) is 276 K. Our goal is to find the volume of air required (V1).

Plugging the values into the formula, we get V1/309 = 2.2/276.

Solving for V1, we find that V1 = 1.97 L.

Thus, a person must breathe in 1.97 L of air at 276 K to fill their lungs.

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A chloride ion, Cl-, has the same electron configuration as a neutral atom of the element argon (Ar). Both have a complete outer electron shell with 8 electrons.

This is because a chloride ion is formed by the gain of one electron by a neutral chlorine atom (Cl), which has 7 electrons in its outermost shell. When it gains one electron, it completes its outer shell and becomes a chloride ion with the same electron configuration as argon. This electron configuration is stable and unreactive, which is why both argon and chloride ions do not readily form chemical bonds with other atoms or molecules. Overall, the electron configuration of a chloride ion is a result of its chemical properties and interactions with other atoms.

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To determine the value for ΔHrxn in kJ/mol, we will use Hess's Law. we get:ΔHrxn = (-467.8 kJ/mol) + (-285.8 kJ/mol) - [(-943.4 kJ/mol) + 2(-365.5 kJ/mol)]ΔHrxn = -733.6 kJ/mole Therefore, the value for ΔHrxn in kJ/mol is -733.6.

Magnesium oxide is MgO, while nitric acid is HNO3. Thus, the balanced chemical equation for the reaction between magnesium oxide and nitric acid is:MgO + 2HNO3 → Mg(NO3)2 + H2OWe must determine the enthalpy change of this reaction (ΔHrxn), which can be accomplished using Hess's Law and the following information:ΔH1 = -943.4 kJ/mol (the heat of formation of MgO)ΔH2 = -365.5 kJ/mol (the heat of formation of HNO3)ΔH3 = -467.8 kJ/mol (the heat of formation of Mg(NO3)2)ΔH4 = -285.8 kJ/mol (the heat of formation of H2O)

We can use these values along with the chemical equation to derive an expression for the enthalpy change of the reaction as follows:ΔHrxn = ΔH3 + ΔH4 - (ΔH1 + 2ΔH2)Plugging in the values, we get:ΔHrxn = (-467.8 kJ/mol) + (-285.8 kJ/mol) - [(-943.4 kJ/mol) + 2(-365.5 kJ/mol)]ΔHrxn = -733.6 kJ/molTherefore, the value for ΔHrxn in kJ/mol is -733.6.

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The adoption of carbon sequestration technology among coal-fired power plants can vary over time due to factors such as regulations, technological advancements, and economic considerations.

However, it's worth noting that carbon capture and storage (CCS) technologies, including carbon sequestration, have been developed and implemented in some coal-fired power plants around the world.

These technologies aim to capture CO2 emissions and store them underground to mitigate the environmental impact of greenhouse gas emissions.

To obtain the current percentage of coal-fired power plants in the USA using carbon sequestration technology.

It would be best to refer to the latest reports and studies from relevant organizations and government agencies specializing in energy and environmental research, such as the U.S. Energy Information Administration (EIA) or the Environmental Protection Agency (EPA).

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The molecular mass of the unknown gas is 16, which means it is also oxygen gas (O2).

To solve this problem, we can use Graham's law of diffusion, which states that the rate of diffusion of a gas is inversely proportional to the square root of its molecular mass.

First, we need to find the rate of diffusion of oxygen gas (O2) using the given information. Let's assume that the volume of oxygen gas that diffused through the porous plug is 1 liter. Then, we have:

Rate of diffusion of O2 = Volume of O2 diffused / Time taken = 1 L / 41 s

Next, we need to find the molecular mass of the unknown gas that diffuses through the same volume of the porous plug in 48 seconds under the same conditions. Let's call the molecular mass of this gas "M". Then, we can use Graham's law to set up the following equation:

Rate of diffusion of O2 / Rate of diffusion of unknown gas = sqrt(Molecular mass of unknown gas / Molecular mass of O2)

Substituting the values we have:

1/41 / Rate of diffusion of unknown gas = sqrt(M / 32)

Rate of diffusion of unknown gas = 1/48

Solving for M, we get:

M = (32 x (1/48)^2) / (1/41)^2

M = 16

Therefore, the molecular mass of the unknown gas is 16, which means it is also oxygen gas (O2).

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An enzyme (biological catalyst) is required to speed up the reaction by lowering the activation energy, thus allowing the reaction to occur at a faster rate and meeting the energy demands of the cell.

The hydrolysis of adenosine triphosphate (ATP) is a crucial process in cellular biology, but the reaction proceeds at a slow rate. This is because the reaction involves breaking the high-energy phosphate bond in ATP, which requires a large amount of energy.

Enzymes are required to speed up the reaction by lowering the activation energy required for the reaction to occur. Enzymes provide an alternative reaction pathway that requires less energy, allowing the hydrolysis of ATP to occur at a faster rate. Therefore, an enzyme (biological catalyst) is necessary for the hydrolysis of ATP to occur efficiently in cells.

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The fair test that he could do to answer the question is C. Try to scratch the marble with each of the minerals, and group the minerals that do scratch the marble together.

When he try to scratch the marble with each of the minerals in her group he can observe the results for a fair test. however One that scratches the other is harder than one that has been scratched.

Hence, Given that marble is a well-known mineral, any mineral that scratches it is harder, while those that do not are less so. and the hardness of minerals can be determined using  with the Moh's scale, with diamond being the hardest mineral and talc being the least hard.

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complete question;

Lewis has the collection of minerals shown in the picture below.He knows that a harder mineral will scratch a softer mineral. He wants to design an experiment that will answer the following question:

Which of the minerals in the collection have a greater hardness than a rock made of marble?

Which of these is a fair test that he could do to answer the question?

A.

Separate the minerals into light and dark colors, and then try to scratch the marble with the light colored minerals.

B.

Separate the minerals into ones that feel heavier and lighter, and then try to scratch the marble with the heavy minerals.

C.

Try to scratch the marble with each of the minerals, and group the minerals that do scratch the marble together.

D.

Try to scratch the pink quartz with each of the minerals, and group the minerals that do not scratch the pink quartz together.

The quantity of energy released or absorbed when a material is dissolved in a solvent is known as the heat of solution, also known as enthalpy of solution.

In this instance, the lattice energy and the heat of hydration are subtracted from one another to get the heat of solution for MX. MX's heat of hydration is -395 kJ/mol, and its lattice energy is -475 kJ/mol. As a result, MX's heat of solution is -80 kJ/mol. An essential thermodynamic characteristic that may be used to estimate a substance's solubility in a solvent is the heat of solution.

When the solute particles are distributed in the solvent, energy is either released or absorbed. The temperature of the MX solution in this instance is only soluble in water.

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Answer: seawater at pH 8 has the greatest concentration of hydroxyl ions[OH-].Thus, option (c) is the correct answer.

Explanation:

When the pH value increases from 7 to 14,it represents increase in the OH- ion concentration.pH scale determines the acidity or basicity of the solution.The value below 7 represents that solution is acidic and above 7 represents that solutions is basic.

The pH of pure water at room temperature is 7.It means it is neither acidic nor basic,it is neutral.The pH value of Battery Acid is 0 which means it is highly acidic.The pH value of Liquid drain cleaner is 14 which means it is highly basic.

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