pure cyclohexane has a normal freezing point of 6.6 c. calculate the freezing point (in c) expected for the solution in question 5

The process of having a Na+ ion be caged by water molecules as a result of the attractive ion-dipole interactions is B.)exothermic.

The process of having Na+ be caged by water molecules as a result of attractive ion-dipole interactions is exothermic meaning it releases heat. This is because the formation of ion-dipole bonds between Na+ ion and water molecules is energetically favorable, resulting in release of energy in the form of heat.

In thermodynamics, exothermic process is a thermodynamic process that releases energy from the system to surroundings, in the form of heat, but sometimes in a form of light, electricity or sound.

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The “rule” or reasoning that I used to compare the cubes is the equation between density, mass, and volume.

Density can be defined as mass per unit volume.  It is usually expressed in kilograms per cubic meter or grams per cubic centimeter. The formula for density is:

                                       Density = Mass ÷ Volume

where Mass is the total amount of matter in an object, and Volume is the amount of space that the object takes up.

A. The larger cube has more mass than the smaller cube. Х

B. The larger cube has less mass than the smaller cube. Х

C.  The larger cube melts at a higher temperature than the smaller cube. Х

D. The larger cube melts at a lower temperature than the smaller cube. X

E. The density of the larger cube is greater than the smaller cube. X

F. The density of the larger cube is less than the smaller cube. X

G. The larger cube is more likely to float in water than the smaller cube.

H. The larger cube is more likely to sink in water than the smaller cube.

I. The larger cube is made up of larger atoms than the smaller cube.

J. The larger cube is made up of smaller atoms than the smaller cube.

Hence, the true statements are marked above.

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To calculate the number of moles of AgNO₃ used in an experiment, we need to know the mass of AgNO₃ weighed out and the molar mass of AgNO₃.

By adding the atomic masses of the component elements, it is possible to get the molar mass of AgNO₃: AgNO₃ = Ag + N + 3O.

AgNO₃'s molar mass = as (1 × Ag atomic mass) + (1 × N atomic mass) + (3 × atomic mass of O)

AgNO₃'s molar mass = 1 × 107.87 g/mol + 1 × 14.01 g/mol + 3 × 16.00 g/mol.

∴ AgNO₃'s molar mass = 169.87 g/mol.

By dividing the mass of weighed-out AgNO₃ by its molar mass, we can now determine how many moles of AgNO₃ were utilized in the experiment:

AgNO₃'s mass and molar mass are used to calculate its moles.

For example: if 2.5 grams of AgNO₃ were weighed out at the beginning of the experiment, the calculation would be:

moles of AgNO₃ = 2.5 g ÷ 169.87 g/mol

moles of AgNO₃ = 0.0147 mol

∴, 0.0147 moles of AgNO₃ were used in the experiment.

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It is true that substance A has hydrogen bonds and that substance A has a higher boiling point than substance B. Moreover, substance A has a larger heat of vaporization than substance B.

In particular, the hydrogen-bonding subgroup of dipole-dipole interactions, which occurs when a hydrogen is in close proximity to (connected to) a strongly electronegative element strongest intermolecular force (namely oxygen, nitrogen, or fluorine).

As a general rule, more energy is needed to overcome intermolecular forces of attraction that are greater. Ionic and polar covalent molecules thus have higher Compared to covalent compounds, these substances have greater melting and boiling temperatures as well as enthalpies of fusion and vaporization.

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The correct answer is B.Bromodimethylbenzene B cannot undergo nucleophilic aromatic substitution

By treatment with sodium amide in liquid ammonia because the two bromine atoms attached to the benzene ring are meta-directing, which would prevent the reaction from occurring.Bromodimethylbenzene is an organic compound made up of a benzene ring with two bromine atoms and two methyl groups attached. It is a colorless liquid at room temperature and has a slightly sweet odor. It is used as an intermediate in the production of a variety of organic compounds, such as dyes and pharmaceuticals. It can also be used as a solvent for various compounds. Bromodimethylbenzene is a toxic substance and should be handled with caution.

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The limiting reagent is AgNO₃

The theoretical yield of silver chloride is 9.75 g AgCl

The actual yield of silver chloride is 7.60 g AgCl

The limiting reagent in the reaction is determined from the mole ratio of the reaction as given in the equation of the reaction.

Equation of reaction: NaCI + AgNO₃ ---> AgCl + NaNO₃

Mole ratio of the reactants is 1 : 1

Moles of NaCl reacting = 6.3/58.5

Moles of NaCl reacting = 0.108 moles

Moles of  AgNO₃ reacting = 0.170 * 0.40

Moles of  AgNO₃ reacting = 0.68 moles

The limiting reagent is  AgNO₃

The theoretical yield of silver chloride =

0.068 moles * (143.32 g AgCl/mole)

The theoretical yield of silver chloride = 9.75 g AgCl

The actual yield of silver chloride = 9.75 g AgCl x (78%)

The actual yield of silver chloride = 7.60 g AgCl

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The conjugated diene creates a mixture of two products the kinetic product and the thermodynamic product upon electrophilic addition; the ratio of these two products is governed by the reaction's circumstances.

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In nature, the linking of two monosaccharides through a glycosidic bond involves the formation of an intermediate hemiacetal species. The activated hemiacetal species in this case is UDP, and it is used to form the glycosidic bond in cellulose.

The first step in the reaction is the activation of the UDP molecule by phosphorylation, which leads to the formation of UDP-glucose. The UDP-glucose then reacts with the hydroxyl group on the C4 carbon of another glucose molecule to form a glycosidic bond. This reaction is catalyzed by the enzyme cellulose synthase, which binds the glucose molecules and orients them in a way that facilitates the formation of the glycosidic bond. The result is the formation of a long chain of glucose molecules joined by glycosidic bonds, which constitutes the cellulose polymer.

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Atomic ingestion The concentration of particular metal ions in a sample, such as calcium, iron, or copper, can be found using the characterisation technique known as spectrophotometry.

Ground-state metal atoms absorb light at extremely particular wavelengths that correspond to the energy required to trigger electronic transitions in their electron orbitals in a process known as atomic absorption. Atomic absorption and emission spectroscopy is a Spectro analytical method for determining chemical elements quantitatively using free atoms in the gaseous state. The foundation of atomic absorption spectroscopy is the light absorption of free metallic ions.

By using certain electromagnetic radiation wavelengths from a light source, atomic absorption spectrometry (AAS) may identify elements in either liquid or solid samples. Different wavelengths will be absorbed by different elements, and these absorbances are evaluated in comparison to standards. By absorbing energy (light) at a certain wavelength, an electron is stimulated from the ground state to a higher energy level. In atomic absorption spectroscopy, the type of atom (which element it is) and the energy levels the electrons are travelling to determine the wavelength of absorbed light.

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[NH3] will increase and [N2] and [H2] will decrease in concentration when the mixture comes to equilibrium.

What is concentration?

In chemistry, concentration is a measure of the amount of a substance in a given volume of a solution or mixture. It is usually expressed in terms of the number of moles of the substance per liters of solution or mixture.

We have an equilibrium constant of Ke = 1.2 at 375°C and the starting concentrations are [H2]0 = 0.76 M, [N2]0 = 0.60 M, and [NH3]0 = 0.48 M.

Concentration at equilibrium is,

N2(g) + 3H2(g) — 2 NH3 (g)

We shall determine whether the reaction will move forward or backward by calculating the reaction Q. If Q < K, the reaction will proceed forward so the concentration of reactants will decrease and that of products will increase. The opposite will happen if Q> K (reaction proceeds backwards).

[tex]Q= \frac{NH_{3} ^{2} }{[N_{2} ] [H_{2}]^{3} } = \frac{0.48^{2} }{(0.60) (0.76)^{3} } = 0.87[/tex]

Since Q < [tex]K_{cr}[/tex], the reaction will proceed forward. Therefore, the concentration of reactants N2 and H2 will decrease while the concentration of the product NH3 will increase.

Therefore, [NH3] will increase and [N2] and [H2] will decrease.

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Boron has the largest first ionization energy. Option C is correct.

The first ionization energy generally increases from left to right across a period of the periodic table, and decreases from top to bottom down a group. Therefore, in the given options, the element with the largest first ionization energy would be boron (B), as it is the closest to the right-hand side of the period and has a relatively small atomic radius compared to the other options.

The order of the elements from smallest to largest first ionization energy would be:

B < O < Mg < Ba < Te

Note that there may be some exceptions to this general trend due to other factors, such as electron configuration and shielding effects, but this is the overall trend.

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--The given question is incorrect, the correct question is

"Based on their positions in the periodic table, predict which has the largest first ionization energy: Options A) Mg B) Ba C) B D) O E) Te."--

a. a red blood cell is microscopic;b.a snow ball is macroscopic;c. baking powder Particulate

a. Microscopic - A red blood cell is too small to be seen with the blind eye and must be observed under a microscope.

b. Macroscopic - A snowball is large enough to be seen with the blind eye

c. Particulate - Baking powder is a fine powder made up of microscopic particles.Macroscopic refers to anything that can be seen with the blind eye . Microscopic refers to anything that requires a microscope to be seen. Particulate refers to materials that are made up of tiny particles or molecules, such as dust, smoke, and gas.

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complete question:Classify each of the following as either macroscopic, microscopic or particulate:

a. a red blood cell.

b.a snow ball

c. baking powder.

If a glass of water contains( 6.022×10²⁴) hydrogen atoms, how many moles of H[tex]_2[/tex]O are present, 10 moles are there.

Water has the chemical formula H[tex]_2[/tex]O and is an inorganic substance. It is a clear, tasteless, odorless, and almost colorless chemical substance that is the primary ingredient of the Earth's hydrosphere as well as the fluids of all recognized living species.

Despite not supplying food, energy, or organic micronutrients, it is essential for all known life forms. Its chemical equation, H[tex]_2[/tex]O, reveals that every single its molecules is made up of one hydrogen atom and two oxygen atoms that are linked together by covalent bonds.

mole = given number of atom/ Avogadro number

       =   6.022×10²⁴   /   6.022×10²³  

      = 10 moles

Therefore, 10 moles are there.

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Electromagnetic radiation consists of particle called photons, each of which has a discrete amount, or quantum, of energy, however, since electromagnetic radiation also has wave properties, each particle is also characterized by a specific wavelength and frequency.

Electromagnetic radiation is a type of energy that travels through space in the form of waves. This radiation is composed of massless particles called photons, which are the fundamental unit of electromagnetic radiation.

Each photon has a discrete amount of energy, which is directly proportional to the frequency of the wave it represents. This relationship is given by the equation E = hf, where E is the distance between two consecutive peaks or troughs of the wave. The frequency of a wave is the number of cycles it completes in a unit of time.

Complete questions:

Electromagnetic radiation consists of particle called ____ each of which has a discrete amount, or quantum, of energy, however, since electromagnetic radiation also has wave properties, each particle is also characterized by a specific wavelength and ____.

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The most appropriate reagent(s) for the conversion of the secondary alcohol intermediate to acetophenone are Na2Cr2O7, H2SO4, and H2O.

This is because these reagents are commonly used in the oxidation of secondary alcohols to ketones.

The reaction can be represented as follows:

Secondary alcohol intermediate + Na2Cr2O7 + H2SO4 + H2O → Acetophenone + other products

In this reaction, the secondary alcohol intermediate is oxidized to acetophenone by the reagent Na2Cr2O7 in the presence of H2SO4 and H2O.

The H2SO4 acts as an acid catalyst, while the H2O provides the necessary hydration for the reaction to occur.

Overall, the most appropriate reagent(s) for the conversion of the secondary alcohol intermediate to acetophenone are Na2Cr2O7, H2SO4, and H2O.

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To calculate the total pressure of the mixture, we need to add up the partial pressures of all the gases in the mixture. The partial pressures given are:

Ar: 749 torr

O2: 11,235 torr

N2: 803 torr

Other gases (assumed to be negligible): 699 torr

Therefore, the total pressure of the mixture is:

749 torr + 11,235 torr + 803 torr + 699 torr = 13,486 torr

Therefore, the total pressure of the mixture is 13,486 torr.

The overall pressure ptot is the total of all pressures in a reference system. This pressure, according to Bernoulli (see Fluid mechanics), consists of the static pressure p, the dynamic pressure pdyn, and the geodetic component ( g z) that exists in a fluid along a stream line in a frictionless flow.

The total pressure of a gas mixture is the sum of its component gases' partial pressures: Ptot = ∑Pi = P1 + P2 + P3... ntot = total number of moles in the gas mixture (the sum of all ni).

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Diet Coke will float in a large container of water because it has less mass and therefore has less density than regular Coke.

The relationship between density and floating is that an object will float in a fluid if it is less dense than the fluid. This is because buoyant force, which is the upward force exerted by a fluid on an object immersed in it, is greater than the weight of the object.

On the other hand, an object will sink in a fluid if it is more dense than the fluid, because the weight of the object is greater than the buoyant force acting on it.

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The concentrations of each ion remaining in solution after the precipitation is complete are [Fe2+] = 0.0375 M, [PO43-] = 0.01875 M, [K+] = 0.1125 M, and [CH3COO-] = 0.0375 M.

What is Precipitation ?

Precipitation can occur in a variety of chemical reactions, but it is most commonly associated with double displacement reactions, where two ionic compounds are mixed together and the cations and anions switch partners. If one of the resulting products is insoluble, it will form a solid that will settle to the bottom of the container.

To solve this problem, we need to determine the products of the reaction between potassium phosphate (K3PO4) and iron (II) acetate (Fe(CH3COO)2), which will result in the precipitation of an insoluble salt.

The balanced chemical equation for the reaction is:

2Fe(CH3COO)2 + 3K3PO4 → Fe3(PO4)2 + 6CH3COOK

From the equation, we can see that the products of the reaction are iron(III) phosphate (Fe3(PO4)2) and potassium acetate (CH3COOK).

To determine the concentrations of the ions remaining in solution, we can use the following steps:

Calculate the number of moles of potassium phosphate and iron (II) acetate in the solutions:

moles of K3PO4 = 0.0750 M x 0.0750 L = 0.005625 mol

moles of Fe(CH3COO)2 = 0.0750 M x 0.0750 L = 0.005625 mol

Determine the limiting reactant. Since the stoichiometric ratio of K3PO4 to Fe(CH3COO)2 is 3:2, we can see that the limiting reactant is Fe(CH3COO)2, since we have an equal number of moles of both reactants.

Use the stoichiometry of the balanced chemical equation to calculate the number of moles of the products:

moles of Fe3(PO4)2 = (0.005625 mol Fe(CH3COO)2) x (1 mol Fe3(PO4)2 / 2 mol Fe(CH3COO)2) = 0.002813 mol

moles of CH3COOK = (0.005625 mol Fe(CH3COO)2) x (6 mol CH3COOK / 2 mol Fe(CH3COO)2) = 0.016875 mol

Calculate the concentrations of the remaining ions by subtracting the number of moles of the reactants from the number of moles of the initial solution and dividing by the total volume:

[Fe2+] = (0.005625 mol - 0 mol) / 0.150 L = 0.0375 M

[PO43-] = (0.005625 mol - 0.002813 mol) / 0.150 L = 0.01875 M

[K+] = (0.016875 mol - 0 mol) / 0.150 L = 0.1125 M

[CH3COO-] = (0.005625 mol - 0 mol) / 0.150 L = 0.0375 M

Therefore, the concentrations of each ion remaining in solution after the precipitation is complete are [Fe2+] = 0.0375 M, [PO43-] = 0.01875 M, [K+] = 0.1125 M, and [CH3COO-] = 0.0375 M.

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Lithium carbonate is a solid compound that does not dissolve in water. Therefore, the final volume of the solution will not be affected by the dilution of lithium carbonate with water.

A solid compound is a type of chemical compound that consists of two or more elements combined together in a solid state. Solid compounds are the most abundant type of compounds in nature, and are typically composed of two or more elements held together by strong chemical bonds. Examples of solid compounds include table salt (NaCl), sugar (C12H22O11), and stainless steel (Fe-Cr-Ni). Solid compounds are generally very stable, and can be found in both organic and inorganic forms. They can also be formed from other compounds, such as when two liquids mix together. Solid compounds are often used in industrial settings, such as in the production of pharmaceuticals, dyes, and other materials.

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The statements that true is  A weak acid solution consists of mostly insoluble acid molecules.

The definition of a weak acid is something that partially dissociates into a solvent. This also implies that the majority of the molecules in a mild acid solution continue to be insoluble in their natural state.

A strong electrolyte is a solution in which all solute particles entirely separate into ions in a solvent.

A weak electrolyte, on the other hand, is a solution in which solute particles only partially split apart into ions.

As like dissolves like, a molecular compound is a covalent compound. In polar solvents like water, molecular molecules cannot dissolve.

Your question is incomplete but most probably your full question was Choose the statement below that is TRUE.

a. A weak acid solution consists of mostly non-ionized acid molecules.

b. The term "strong electrolyte" means that the substance is extremely reactive.

c. A strong acid solution consists of only partially ionized acid molecules.

d. The term "weak electrolyte" means that the substance is inert.

e. A molecular compound that does not ionize in solution is considered a strong electrolyte.

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The statement that is true about Earth's water distribution is that the majority of the Earth's water is in the oceans.

Water is a transparent, tasteless, odorless, and nearly colorless chemical substance, which is the main constituent of Earth's hydrosphere and the fluids of all known living organisms. It is vital for all known forms of life, even though it provides no calories or organic nutrients. Its chemical formula is H20, meaning each of its molecules contains one oxygen and two hydrogen atoms that are connected by covalent bonds. Water plays an important role in the world economy, as it functions as a solvent for a wide variety of chemical substances and facilitates industrial cooling and transportation. It is also essential for sanitation, hygiene, and the production of hydroelectric power.

This is evident from the graph, which shows that the oceans make up about 97% of Earth's water, while the other 3% is composed of freshwater lakes, rivers, and groundwater. This indicates that the vast majority of Earth's water is in the oceans, and that there is only a small amount of freshwater available for human use.

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The work done by the gas during an expansion is, -0.0242 MJ.

The work done by the gas during an expansion is given by the equation:

w = -P_extΔV

where P_ext is the external pressure,

ΔV is the change in volume of the gas.

The gas is expanding from an initial volume of 1.00 L to a final volume of 25.0 L, so:

ΔV = V_final - V_initial = 24.0 L

The external pressure is given as 1.00 atm = 1.01 × 10^-3 MPa

The work done by the gas is:

w = -P_extΔV = -(1.01 × 10^-3 MPa)(24.0 L) = -0.0242 MJ

Note that the negative sign indicates that the work is done by the gas on the surroundings.

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When a mixture of 56.0 g acetylene,C₂H₂ , and 81.0 g oxygen, O₂ , is ignited, the resultant combustion reaction produces CO₂ and H₂O. There are 27.144 g  C₂H₂,  91.872 g CO₂, and 18.792 g H₂O present after the reaction is complete with the oxygen as limiting reactant.

First we should write the balance chemical equation

2C₂H₂ + 5O₂ =4CO₂ + 2H₂O

Then we can calculate the moles of the reactant

Moles acetylene = mass / mass molar

Moles acetylene = 56 g / 26 g/ moles

Moles acetylene = 2.15  moles

Moles oxygen = mass / mass molar

Moles oxygen = 81 g / 31 g/ moles

Moles oxygen =  2.61 moles

From the reaction we know that 2 moles of acetylene reacted with 5 moles of oxygen produce 4 mole of carbon dioxide an 2 moles water. in this reaction oxygen fully reacted an acetylene excess so the limiting reactant is oxygen.

Because of oxygen is fully reacted the moles acetylene that present after reaction complete will be

Moles acetylene = 2/5 x mole oxygen

Moles acetylene = 2/5 x 2.61 moles

Moles acetylene =  1.044 moles

mass acetylene =  moles x mass molar

Mass acetylene = 1.044 moles x 26 g/ moles

Mass acetylene = 27.144 g

Moles CO₂= 4/5 x mole oxygen

Moles CO₂= 4/5 x 2.61

Moles CO₂=  2.088 moles

Mass CO₂ = moles x mass molar

Mass CO₂ = 2.088 moles x 44 g/ moles

Mass CO₂ = 91.872 g

Moles H₂O = 2/5 x mole oxygen

Moles H₂O = 2/5 x 2.61 moles

Moles H₂O =  1.044 moles

Mass H₂O = moles x mass molar

Mass H₂O = 1.044 moles x 18 g/ moles

Mass H₂O = 18.792 g

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The predominate inter-particle bond for each material is:

The cohesive forces that bind particles together in a solid material are determined by the nature of the atoms, ions, or molecules that make up the material. Some materials are composed of atoms that are held together by strong covalent bonds, whereas others are made up of ions that are attracted to each other by electrostatic forces.

Metallic materials have delocalized electrons that form a "sea" of electrons which hold the metal ions together. London Keesom forces are present in all materials, and arise from instantaneous dipoles that are formed in molecules. Hydrogen bonds are formed between molecules that have a hydrogen atom bonded to an electronegative atom.

By considering the nature of the constituent particles, it is possible to identify the predominant inter-particle bond that holds a solid material together.

This question should be provided with the options, which are: ebye, ionic, metallic, hydrogen, london keesom, covalent.

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The correct graph that represents the magnitude of the electric field as a function of the distance from the center of a solid charged conducting sphere of radius r is a graph that shows a linear relationship between the electric field (E) and the distance (r) from the center of the sphere.

The electric field is proportional to the inverse square of the distance from the center of the sphere, so the graph should show a decrease in magnitude as the distance from the center of the sphere increases.

The slope of the graph should also be steeper closer to the center of the sphere and gradually become less steep as the distance from the center increases. Therefore, the correct graph is a straight line that starts with a relatively steep slope and gradually becomes less steep as the distance from the center increases.

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The expression which is true regarding the equilibrium of the reaction is

[CO] = [H₂] = [CH₃OH]. Hence, option d is correct.

A reaction is said to at equilibrium when the rate of forward reaction and backward reaction are the same. The number of reacting species in the reactant side must be equal to the number of reacting species in the product side.

Here, the reaction of carbon monoxide and hydrogen gas to give methanol is given below:

[tex]\rm CO + 2H_{2} \rightarrow CH_{3}OH[/tex]

At, equilibrium, the concentration of all the reactants and products will be the same.

Therefore,

[CO] = [H₂] = [CH₃OH]

Hence, option d is correct.

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the coefficient of O2 in the following equation is 3, 6, 3, 6

In chemistry, a coefficient is a number that is placed in front of a chemical formula when writing a chemical equation. It indicates the number of molecules or moles of a particular substance that is present in the reaction. For example, if the coefficient for oxygen is two, then two molecules of oxygen are present for every one molecule of the reactant. Coefficients are used to balance chemical equations and can often be used to determine the amount of products produced in a reaction. For example, if two molecules of hydrogen react with two molecules of oxygen to form one molecule of water, then the coefficients in the equation would be 2H2 + 2O2 --> 2H2O.

Therefore,  the coefficient of O2 in the following equation is 3, 6, 3, 6

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if you decrease temperature of an endothermic reaction, will the reaction favor products or reactants will shift it in the direction that is exothermic.

Exothermic reactions are chemical reactions that occur in everyday life. Exothermic reactions have certain characteristics that distinguish them from endothermic reactions.

The characteristics of an exothermic reaction are:

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Answer:

Solubility in water and Conductivity

Explanation:

Ionic compounds are important for the heart to beat because they are soluble in water and conduct electricity. This allows the electrical impulses that regulate heartbeats to easily travel through the heart cells, which are mostly composed of water. Solubility in water allows the ionic substances to be easily dispersed in the heart cells, while conductivity allows the electrical impulses to move quickly and efficiently through the cells. The crystalline structure and melting point of ionic compounds are not as relevant for this function.

347.12 gram present in 5.89 moles of cobalt.1 mole is equal to 6.023 × 10²³ particles.

The term mole is defined as the amount of material containing 6.023 × 10²³ particles.

1 mole is equal to 6.023 × 10²³ particles.

It can be utilized to measure out the products obtained from the chemical reaction. The unit is referred by mol. The formula for the number of moles formula is showed as follows.

Number of Moles = Mass of substance ÷ Mass of one mole.

The amount of atoms, molecules, or other particles 6.023 × 10²³ that make up one mole of a material is known as Avogadro's Number. One mole of hydrogen, for instance, is represented by hydrogen atoms. One mole of water is equal to 6.023 × 10²³ water molecules.

1 mole of cobalt = 58.9345 grams

Therefore, 5.89 moles of cobalt = 5.89 × 58.9345

= 347.12 gram

Thus, 5.89 moles of cobalt contains 347.12 gram.

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