which of the following statements correctly describe a net ionic equation? select all that apply. a.The positive and negative ions dissociate from each other.
b.The positive ions are attracted to the partially negative O atom of the H2O.
c.The attraction between the H2O molecules and the ions is stronger than the attraction of the ions for each other.

Answer: You didn't post the alcohol

Explanation: If it is the one in the screenshot then the answer would be 3-phenlylpentone-2-ol

The chemical structure and kind of alcohol determine the molecule's IUPAC nomenclature.

The hydroxyl (-OH) group is often bonded to a hydrocarbon chain, and the hydroxyl group's position on the chain is identified by a number in the IUPAC designation of an alcohol. For instance, the alcohol is known as a "alkanol" with the suffix -ol denoting the presence of the hydroxyl group if the hydrocarbon chain is a straight chain alkane. Additionally, a number is added before the suffix to indicate where the hydroxyl group is located, as in "2-propanol".

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The number of moles present in a 500mL flask that is filled with krypton (Kr) at STP is 0.022 moles.

The number of moles in a substance can be calculated using the following ideal gas law equation as follows:

PV = nRT

Where;

According to this question, a 500mL flask is filled with krypton (Kr) at STP. The values of T, P and R at STP are as follows:

1 × 0.5 = n × 0.0821 × 273

0.5 = 22.41n

n = 0.022 moles

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Thermal energy is transferred between objects by conduction, convection, and radiation. In conduction, heat is transferred through direct contact between objects.

What is thermal energy?

Thermal energy is energy that is generated from heat. It is the result of the movement of energy from a higher temperature to a lower temperature. Thermal energy is transferred by conduction, convection, and radiation. Conduction is the transfer of energy through direct contact between two objects. Convection is the transfer of energy through the movement of fluids, such as air or water. Radiation is the transfer of energy through electromagnetic waves. Thermal energy is used in a variety of ways, including powering machines, heating homes, and providing electricity. It is also used to create steam, which is used to power turbines to generate electricity.

Thermal energy is an important part of our lives, and it is a renewable resource that can be used to create a sustainable energy future.

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Although part of your question is missing, you might be referring to this full  

question:

Calculate the heat energy required to convert completely 85.0 g of water at 50°C into steam at 100°C.

the heat energy required to convert completely 85.0 g of water at 50°C into steam at 100°C is 18037J.

Given that,

Mass m=85g

We know that,

Q1 =mcΔt

Q1 =85×4.2×(100−50)

Q1 =17850J

Now, the latent heat

Q2 =mL

Q2 =85×2.2

Q2 =187J

Now, the total heat energy required

Q=Q1 +Q2

Q=17850+187

Q=18037J

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A chalk stick is porous and has a lot of air in it. When kept in water, water slowly enters many of these spaces. A chalk stick will float or sink in water depending on the weight of the water (fluid) and the weight of the wet chalk stick (object).

According to Archimedes' Principles, an object that is partially or completely submerged in a fluid will experience an upward force equal to the weight of the fluid it displaces. So this principle explains the relationship between gravity and the upward force on an object when it is placed in water. As a result of the upward lift (buoyancy), of course, the object that is in the liquid will experience a reduction in weight. As a result, objects lifted in water will feel lighter than when lifted on land.

So for wet chalk that is put into water, it can sink if the weight of the object is greater than the weight of the fluid. It can also float if the density of the fluid is greater than the density of the object.

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A solution is composed of the solute, the substance that is dissolved in the solvent, and the solvent, the most plentiful substance in the solution. The solvent is usually a liquid, but can also be a solid or a gas.

The solute is the substance that is dissolved in the solvent [1], and the amount of solute in the solution is usually much less than the amount of solvent.

The type of solvent used to dissolve a solute depends on the types of interactions that the solute and solvent molecules have with each other. For example, polar solutes are usually dissolved in polar solvents, while nonpolar solutes are usually dissolved in nonpolar solvents. The type of solvent can also affect the rate at which the solute dissolves; for example, solutes dissolve faster in hot solvents than in cold solvents.

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NiBr₂ is deliquescent in nature which means it is soluble in water.

Nickel bromide is a yellow, crystalline material, mildly toxic, carcinogenic in nature. When nickel bromide comes into contact with strong acids or acid fumes it produces highly toxic and corrosive hydrogen bromide gas. When it is heated to decomposition it emits toxic bromide fumes.

The compound nickel(II) bromide is a strong electrolyte. Nickel(II) bromide is used as a effective source of the bromide ion. It is an important raw material and intermediate which is used in synthetic chemistry. NiBr₂ is soluble in water or we can say that it is deliquescent in nature.

The given question is incomplete so I have answered according to general knowledge.

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The volume i should dilute 126 ml of an 7.15 M CuCl₂ solution so that 50.5 ml of the diluted solution contains 4.33 g CuCl₂ is equals to the 1.412 ×10³ mL.

CuCl₂ is an ionic compound that is soluble in water. We can use the molarity and the volume of the initial solution to figure out how many grams of copper(II) chloride it contains. We have,

Volume of dilute solution, V = 126 ml

Molarity of CuCl₂ = 7.15 M

Firstly, we will convert the mass of CuCl₂ to moles : n = m/M

Where n = moles

Now, molar mass of CuCl₂ = 1× mass of copper + 2× mass of chlorine= 63.55g/mol + 2×35.45

g/mol = 134.45 g/mol

So, n = 4.33/134.45 = 0.03221 mol

We want to calculate the concentration of the 50.5 mL CuCl₂ solution. Formula is C = n/V

where, c = concentration

We must convert 50.5 mL to L:

50.5 mL ×1 L/1000mL = 0.0505L

so, C = n/V = 0.03221 mol/0.0505L

C = 0.638 M. Use the dilution formula to find the volume of the diluted solution: C₁V₁ = C₂V₂

Where, C₁ is the initial concentration

Substitute V₁ = 126 ml , C₁ = 7.15 M , C₂

= 0.638 M

Thus, volume of dilute solution,

7.15 M × 126 mL = 0.638 M × V₂

=> V₂ = 126× 7.15 /0.638 × 1000

=> V₂ = 1.412068 L

but we have the volume in mililiter units, so the required volume is 1.412 × 10³ mL.

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The type of chemical bond that maintains the two strands of DNA together is called a hydrogen bond.

A base from one strand pairs complementary with a base from the other to form hydrogen bonds between the two strands. Although each of these hydrogen connections is weak, the group as a whole is fairly robust.

There are two types of bonds that hold the DNA double helix together: covalent and hydrogen. Each linear thread contains covalent bonds that firmly bind the bases, sugars, and phosphate groups both within and between components. A base from one strand pairs complementary with a base from the other to form hydrogen bonds between the two strands. Although each of these hydrogen connections is weak, the group as a whole is fairly robust.

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The empirical formula for a compound that contains 48.64% carbon, 8.16% hydrogen and 43% oxygen is CH2O.

Empirical formula is a type of chemical formula that expresses the relative number of each atom present in a molecule of a substance. It is calculated from the elemental composition of a compound, and is the simplest whole number ratio of the elements it contains.

This can be determined by converting the percentage of each element into its molecular weight, then dividing by the smallest molecular weight. The molecular weights for carbon, hydrogen and oxygen are 12.01, 1.01, and 16.00 respectively. Dividing each of these by the smallest value of 1.01, we get 12, 1, and 16. Then, dividing the mass of each element in the compound by the corresponding molecular weight, we get 4, 8, and 2.7. Rounding these values to the nearest whole number gives us the empirical formula of CH2O.

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So we can use 3.4 quarts of gasoline to make 3 quarts of the mixture. It can be calculated by using ratio of gasoline.

In the term of chemistry, a mixture generally can be defined as a material made up of two or more different chemical substances which are not chemically bonded. A mixture also can be described as the physical combination of two or more substances in which the identities are retained and are mixed in the form of solutions, suspensions and colloids.

To find out, divide the amount of oil you need by the ratio of oil to gasoline: 0.1 quart / (0.1 quart / 3.5 quarts) = 0.1 quart * (3.5 quarts / 0.1 quart) = 0.1 * 35 = 3.5 quarts of gasoline.  So you use 0.1 quart of oil and 3.5 quarts of gasoline - 0.1 quart of oil = 3.4 quarts of gasoline to make 3 quarts of the mixture.

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The colors of flames in experiments can vary based on several factors, including the temperature and composition of the burning material.

In general, the color of a flame is determined by the emission spectrum of the excited molecules and atoms in the flame. When a material is burned, the heat and energy generated excites the molecules and atoms, causing them to emit light. The specific colors that are emitted depend on the temperature of the flame, as well as the chemical composition of the burning material.

For example, in a very hot flame, such as the flame produced by a welder's torch, the temperature can be high enough to excite and ionize the atoms of the burning material, causing them to emit light across the entire visible spectrum and beyond. This results in a flame that appears white.

In cooler flames, such as those produced by a candle, the temperature is not high enough to ionize the atoms, but it is still high enough to excite them and cause them to emit light. The specific colors that are emitted in this case depend on the chemical composition of the burning material. For example, in a candle flame, the wax is primarily composed of hydrocarbons, which emit a yellow-orange light when burned. The blue color that is often seen in the center of the flame is due to the reaction between the hydrogen and carbon in the wax, which produces excited molecules that emit blue light.

In conclusion, the colors of flames in experiments can vary based on the temperature and composition of the burning material. The specific colors that are observed depend on the conditions within the flame and the chemical reactions that are taking place.

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The suspect created a Molotov cocktail.

A cocktail is an alcoholic beverage composed of two or more ingredients, usually of different categories, such as spirits, liqueurs, sweeteners, or mixers. The most popular cocktails include martinis, margaritas, daiquiris, mojitos, and cosmopolitans. Cocktails can be served as an aperitif, during a meal, or after dinner as a digestif. Cocktails are often created to suit a particular occasion or season, and can range from sweet and fruity to strong and intense.

This is a type of incendiary device typically consisting of a glass bottle filled with a flammable liquid, usually gasoline, with a wick, often made of cloth, protruding from the top. The wick is lit and the bottle is then thrown or otherwise deployed, which causes the bottle to break and the flammable liquid to spread and ignite. In this case, the suspect put gasoline in a glass jar, added a wick, lit it and then threw it in a house, creating a Molotov cocktail and starting a fire.

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The distribution of sample means is approximately normal with a mean of 128 fl. Oz. and a standard deviation equal to the standard deviation of the population (fl. Oz.) divided by the square root of the sample size (8).

This is known as the Central Limit Theorem and is true for any population with a finite standard deviation, regardless of the underlying distribution.

The Central Limit Theorem is a fundamental theorem in statistics which states that, given a sufficiently large sample size, the sampling distribution of the mean of a variable will approach a normal distribution , regardless of the underlying distribution of the population. In other words, as the sample size gets larger, the sample mean will become more and more normally distributed, even if the original population is not normally distributed. This is often used when analyzing data, as it allows us to make predictions about the mean of a population based on the sample mean.

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II only ,  i.e., isothermally decreasing the volume of the container to 0.425 L.

An isothermal change in volume will alter the concentration of the reactants and products in a system at equilibrium, which can cause the equilibrium to shift. However, the shift direction cannot be predicted without considering the effect of the change on both the forward and reverse reaction rates. In this particular case, since the reaction is exothermic (H = -37.7 kJ/mol), decreasing the volume of the container will increase the concentration of the products and decrease the concentration of the reactants, which will cause the equilibrium to shift to the right, favoring the formation of N2O4(g). This shift will counteract the effect of the decrease in volume and restore the original state of the system at equilibrium.

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The complete question is as follows:

Answer:

12753I 53 127 I

Explanation:

Hence, the isotopic symbol for iodine isotope with 74 neutrons is 12753I 53 127 I .

Hence, the isotopic symbol for iodine isotope with 74 neutrons is 12753I 53 127 I.

Isotopes are elements that belong to the same family but have different numbers of neutrons but the same number of protons. The atomic number of an element on the Periodic Table is determined by the number of protons in its nucleus.

The total number of protons and neutrons in an isotope, or mass, is used to identify it. Isotopes are typically written in one of two ways. They both use the atom's mass, which is equal to the sum of the number of protons and neutrons.

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The units of the rate constant k in the rate law "Rate k [XI2Y" are (M^-1 s^-1).

The rate of a reaction is typically expressed as the change in concentration of a reactant or product over time. In the rate law, the rate of the reaction is proportional to the product of the concentration of reactants raised to some power, which are represented by [X] and [Y] in the rate law. The proportionality constant, k, is the rate constant, which has units that reflect the units of concentration raised to the power indicated by the coefficients in the rate law.
In this case, the rate law has a single reactant raised to the power of 2, so the units of k would be (M^-1 s^-1). The negative exponent indicates that the rate of the reaction decreases as the concentration of the reactant increases, and the positive exponent for time indicates that the rate of the reaction increases with time.

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Answer:

540.47g approximately

Explanation:

No. of moles in Na₂CO₃ = 5.4 moles

Mole ratio of Na₂CO₃ : CaCO₃ = 1:1

No. of moles in CaCO₃ = 5.4 moles

Mass of CaCO₃ = 5.4 × 100.0869

= 540.46926g

The order from shortest to longest covalent bond length is: CO < NH3 < CH4 < PH3 < SiH4.

The following five covalent bonds found in camp (carbon monoxide, ammonia, methane, phosphine, and silane) can be ordered from shortest to longest based on the van der Waals radii of the bonded atoms.

Carbon Monoxide (CO): The bond length between carbon and oxygen is the shortest among the five bonds.

Ammonia (NH3): The bond length between nitrogen and hydrogen in ammonia is slightly longer than the bond length in CO.

Methane (CH4): The bond length between carbon and hydrogen in methane is longer than the bond length in NH3.

Phosphine (PH3): The bond length between phosphorus and hydrogen in phosphine is longer than the bond length in CH4.

Silane (SiH4): The bond length between silicon and hydrogen in silane is the longest among the five bonds.

So, the order from shortest to longest covalent bond length is: CO < NH3 < CH4 < PH3 < SiH4.

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The ionization states of aspartic acid at different pH can be determined by using the pKa values of the amine, carboxylic acid, and carboxylic acid in the side chain.

At pH less than 1.88, the carboxylic acid group is fully protonated and the molecule is in its neutral form.

At pH between 1.88 and 3.65, the carboxylic acid group deprotonates, forming the corresponding carboxylate ion and the molecule becomes negatively charged. At the same time, the side chain carboxylic acid group is protonated.

At pH between 3.65 and 9.6, both the carboxylic acid group and the side chain carboxylic acid group are deprotonated, resulting in two negatively charged carboxylate ions.

At pH greater than 9.6, the amine group becomes deprotonated and the molecule is in its neutral form with two negatively charged carboxylate ions.

These ionization states are dynamic and will change with changes in pH.

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The volume of the 1.775 M glucose solution that can be prepared from 50.00 ml of a 3.00 M glucose solution is 28.08 ml.

Molarity (M) of a solution is defined as the number of moles of solute per liter of solution. To prepare a solution with a desired molarity, we need to determine the number of moles of solute required and then use that information to calculate the volume of the solution needed.

In this case, the desired molarity of glucose solution is 1.775 M, and we have 50.00 ml of a 3.00 M glucose solution. To determine the number of moles of glucose in 50.00 ml of the 3.00 M glucose solution, we need to multiply the volume by the molarity:

n = V x M = 50.00 ml x (3.00 mol/L) = 0.150 mol

Once we have the number of moles, we can calculate the volume of the solution needed to achieve the desired molarity:

V = n / M = 0.150 mol / (1.775 mol/L) = 0.0847 L = 84.7 ml

To be precise, 50 ml of a 3 M solution will yield 28.08 ml of a 1.775 M solution.

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The energy absorbed or released during a reaction in which a substance is produced is called d.) enthalpy of formation.

The enthalpy of formation often referred to as the heat of formation, is the energy change that occurs when a substance is formed from its elements under standard conditions. The enthalpy of formation represents the energy absorbed or released when a substance is produced from its constituent elements in their standard states.

For example, the enthalpy of the formation of water is the energy change that occurs when hydrogen gas and oxygen gas are combined to form liquid water under standard conditions. The enthalpy of formation is an important concept in thermodynamics, as it provides information about the energy required or released during chemical reactions, which can be used to predict the feasibility of a reaction, calculate the energy changes during combustion, and design energy-efficient processes.

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Lewis dot structure is given in photo .

What is  lewis dot structure ?

A Lewis point structure is  a type of diagram used to show the distribution of electrons within a molecule or ion. This structure was first introduced in 1916 by chemist Gilbert N. Lewis. The structure consists of dots representing electrons surrounding the chemical symbols of the atoms in the molecule, indicating the number of bonds each atom can form. The dots are placed in pairs around the element symbol and represent the valence electrons (the electrons at the outermost energy level) of that element. The number of valence electrons of an element can be obtained from the periodic table.

Lewis point structures are used to predict the number and type of bonds that form between atoms in a molecule and to predict the shape of the molecule. By connecting the points of different elements in a molecule, the lewis structure can be used to determine the bond order, or the number of bonds between two atoms. Information about bond order, combined with the arrangement of atoms in space, can be used to determine the molecular structure of a molecule.

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Answer:

The two balanced reactions for the combination reactions between copper (I) and sulfur are:

Cu + S --> CuS

2Cu + 3S --> 2CuS

The enthalpy change of dissociation of O2 (g) is 495 KJ/mol. This is the energy required to break the bond between the two oxygen atoms in a single molecule of O2 (g).

The double bond in O2 (g) has a bond enthalpy of 495 KJ/mol. This indicates that the dissociation's enthalpy change is also 495 KJ/mol. In other words, the two oxygen atoms in a single molecule of O2 must be separated using 495 KJ/mol of energy (g). As a result, the answer to the question regarding the enthalpy change of O2 dissociation is (c) 495 (g). This means that 495 kJ of energy are required to break one mole of O= bonds in O2 (g). The enthalpy change of dissociation of O2 (g) is equal to the bond enthalpy of the double bond O=, so the answer is 495 kJ/mol. This energy is released when the bond is formed during the reverse process of O2 formation from individual oxygen atoms.

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Electrons can make a transition from one energy level to another by absorbing or emitting a specific amount of energy.

In an atom, electrons occupy specific energy levels or orbitals, which are determined by the energy the electron has. When an external source of energy, such as light or heat, is introduced, it can excite the electrons and cause them to move to a higher energy level. This transition from one energy level to another is known as an energy level transition.

For a transition to occur, the energy of the external source must match the energy difference between the initial and final energy levels. If the energy offered is too little, it will not have enough energy to excite the electron to a higher level. On the other hand, if the energy offered is too much, it will cause the electron to gain even more energy and move to a higher level than desired. In either case, the transition cannot occur.

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The angle of rotational symmetry in methane (CH4) is 720°.

The angle of rotation is the turning angle during rotation for a figure or object that has rotational symmetry. For instance, a square still looks the same after being rotated by 90 degrees. Consequently, a square rotates at a 90-degree angle.

This means that a methane molecule can be rotated 720° around its central carbon atom and still maintain its original appearance. The molecule has a tetrahedral shape, which allows for four equivalent positions of rotation.

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Compounds are made up of molecules that are a combination of two or more elements. Therefore, option A is correct.

The compound is defined as a substance made from two or more different elements that have been chemically joined. Water (H2O), which is made from the elements hydrogen and oxygen, and table salt (NaCl), which is made from the elements sodium and chloride, are two examples of compounds.

Molecular compounds have no electrical charge. When a metal reacts with a nonmetal, ionic compounds are (usually) formed (or a polyatomic ion). When two nonmetals react with each other, covalent compounds are formed.

Thus, option A is correct.

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A) Glucose would not produce an electrolyte solution when dissolved in water.

An electrolyte is a substance that produces an electrically conducting solution when dissolved in a polar solvent, such as water. Electrolytes are typically ionic compounds that dissociate into positively charged ions (cations) and negatively charged ions (anions) in solution.

B) Magnesium sulfate, C) Ammonium chloride, and D) Potassium iodide are all ionic compounds that dissociate into ions when dissolved in water, producing an electrically conducting solution and making them electrolytes.

In contrast, glucose (A) is a simple sugar that does not dissociate into ions when dissolved in water and does not produce an electrically conducting solution. It is therefore not an electrolyte.

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The complete question is:

All of the following compounds would produce an electrolyte solution when dissolved in water except:

A) Glucose

B) Magnesium sulfate

C) Ammonium chloride

D) Potassium iodide