Write the complete ground-state electron configuration of Ag+. For multi-digit superscripts or coefficients, use each number in succession.​

Atomic size is significantly influenced by the growth of nuclear charge over time and the expansion of electron shells down the group.

Atomic size is determined by the distance between the nucleus and the outermost electron shell. The number of electrons in the outermost shell, also known as the valence electrons, plays a crucial role in determining atomic size.

Down the group, the number of electron shells increases, leading to an increase in atomic size. The increased distance between the nucleus and the valence electrons weakens the attractive force, making it easier for the outermost electrons to move further from the nucleus.

Across a period, atomic size decreases due to an increase in nuclear charge. As the number of protons in the nucleus increases, the attractive force on the valence electrons increases, making it harder for the electrons to move away from the nucleus. This results in a decrease in atomic size across the period.

Overall, the increase in electron shells down the group and increase in nuclear charge across the period have a significant impact on atomic size.

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The positive attributes are;

The experiment was repeated to decrease the error margin

There is a control to establish the validity of the study.

To improve an experiment to determine the time taken for ice to dissolve when sprayed with salt, you could consider the following:

Increase the sample size: Conduct the experiment on a larger sample size to increase the accuracy of the results.

Minimize external factors: Minimize external factors that may affect the experiment, such as temperature, humidity, and air flow, to ensure that the results are accurate and consistent.

Use a better timer: Use a timer to record the time taken for the ice to dissolve completely.

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Answer:

True

Explanation:

In general, metals are located on the left of the periodic table. Nonmetals are on the right. This means that they are on opposite sides.  So the answer is True.

Inertia is the tendency of an object to resist changes in its state of motion. If an unbalanced force affects an object, several predictions can be made about possible changes in the straight line motion of the object:

1. The object will accelerate: If an unbalanced force acts on an object, the object will accelerate in the direction of the force. The greater the force, the greater the acceleration.

2. The object will change its velocity: If the force acting on the object is not in the same direction as its velocity, the object will change its velocity. The change in velocity will be in the direction of the force.

3. The object will change its direction: If the force acting on the object is perpendicular to its velocity, the object will change its direction. The object will move in a curved path.

4. The object will continue to move in a straight line: If the force acting on the object is balanced, the object will continue to move in a straight line at a constant velocity.

5. The object will stop moving: If the force acting on the object is greater than the force of friction, the object will eventually stop moving.

Answer: 14.11 g

Explanation:

Ideal gas law

We will use the ideal gas law for this problem:

[tex]PV=nRT[/tex]

We know V, which is 7.10

P is 1.11 atm

and T is 31.0 C, or 305 K

R will be 0.08206 L*atm/mol*k, since we are dealing with atmospheres for our pressure.

Now, we just need to solve for n, moles

[tex]1.11*7.10=n*0.08206*305\\n=0.321[/tex]

We have 0.321 moles of CO2

Convert to g

The molar mass of CO2 is 44.01 g/mol, so we multiply 44.01 g/mol by 0.321 moles to cancel out the moles and get grams.

[tex]\frac{44.01g}{mol} *0.321mol=14.11 g[/tex]

a. The 5d sublevel has a total of 10 orbitals, each orbital can hold 2 electrons, therefore the 5dz2 orbital can hold a maximum of 2 electrons.

b. The 1d sublevel does not exist, as "d" orbitals start from the second energy level. So, there cannot be any electrons in the 1d designation.

c. The 5d sublevel has a total of 10 orbitals, each orbital can hold 2 electrons, therefore the 5d sublevel can hold a maximum of 20 electrons.

d. The 7p sublevel has a total of 7 orbitals, each orbital can hold 2 electrons, therefore the 7p sublevel can hold a maximum of 14 electrons.

e. The 6d sublevel has a total of 10 orbitals, each orbital can hold 2 electrons, therefore the 6d sublevel can hold a maximum of 20 electrons.

f. The n=3 energy level contains three sublevels: 3s, 3p, and 3d. The 3s sublevel has 1 orbital and can hold a maximum of 2 electrons, the 3p sublevel has 3 orbitals and can hold a maximum of 6 electrons, and the 3d sublevel has 5 orbitals and can hold a maximum of 10 electrons. Therefore, the n=3 energy level can hold a maximum of 18 electrons.

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The volume of the 1.0 M sodium phosphate must be used to make 4.0 L of 0.80 M sodium phosphate is 3.2 L which is determined by dilution formula. So, option (d) is correct.

Dilution is defined as the process of decreasing the concentration of a solute in a solution simply by mixing with more solvent like adding more water to the solution. To dilute a solution means to add more solvent without the addition of more solute to the solution. It can be calculated by using the dilution formula.

Dilution formula  for the stock solution can be expressed as ,

 M1V1 = M2V2

Here, M1 is the concentration of the stock solution, V1 is the volume of the stock solution, M2 is the concentration of the new solution and V2 is the volume of the new solution.

Putting all the values we get,

1 M x V1 = 0.80 M x 4 L

V1 = 3.2 L

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The complete question is,

What volume of 1.0 M sodium phosphate, to the nearest tenth of a liter, must be used to make 4.0 L of 0.80 M sodium phosphate?

answer choices

a. 0.2 L

b. 1.2 L

c. 2.2 L

d. 3.2 L

Answer:

4.65 meters

Explanation:

To convert 465 cm to m, you would need to divide 465 by 100, which equals 4.65 m.

life span of each star according to shortest to longest:-

star              Lifespan
Rigel             7 to 9 million year
Canopus      30 million year
Achernar     37.3 million year
Capella A    590-650 million year
Sirius A       1 billion year
sun              10 billion year
the primary series is the stage where a celebrity spends most of its existence. Relative to different levels in a star's "life" it's far extraordinarily lengthy; our sun took about 20 million years to form but will spend about 10 billion years (1 × 1010 years) as a first-rate collection star earlier than evolving into a crimson large.

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The following reactions of alkenes take place with syn stereospecificity: Addition of bromine (treatment with Br₂) and hydrogenation (treatment with H₂/Pt).

Syn stereospecificity is a term used in organic chemistry to describe the stereochemistry of a reaction where two substituents are added to a molecule on the same side of a double bond. This is also known as syn addition which occurs in certain addition reactions of alkenes. There are several reactions of alkenes that occur with syn stereospecificity. These include the addition of bromine (treatment with Br₂) and hydrogenation (treatment with H₂/Pt). In both of these reactions, the two substituents are added to the same side of the double bond, resulting in syn addition.

On the other hand, addition of HBr (treatment with HBr) and acid-catalyzed hydration (treatment with aqueous H₂SO₄) occur with anti-stereospecificity, meaning the substituents are added to opposite sides of the double bond, resulting in anti-addition.

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The labels in the correct sequence that indicating the order reversible reaction will occur in within the pulmonary capillaries are :

HCO₃⁺ + H⁺ --->  H₂CO₃  --->  H₂O  --->  CO₂

The Deoxygenated blood with high levels of the carbon dioxide enters in the capillaries of surrounding the alveoli. The Oxygen from the alveoli will diffuses across in the alveolar capillary membrane and the binds to the hemoglobin in the red blood cells.

The Carbon dioxide diffuses from the red blood cells in the alveoli. The Oxygenated blood leaves in the capillaries and then returns to heart and be pumped to rest of the body. The Deoxygenated blood with the low levels of the carbon dioxide and returns to the heart and be pumped to lungs again.

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The isotope used to date young, organic material is carbon-14.

Carbon-14 is the isotope used to date young, organic material. It breaks down relatively quickly and has a half-life of about 5,700 years.

Carbon-14 is constantly being formed in the upper atmosphere through the interaction of cosmic rays with nitrogen, and it is taken up by plants during photosynthesis.

Animals then consume plants and incorporate the carbon-14 into their own bodies. When an organism dies, the carbon-14 begins to decay, and by measuring the amount of carbon-14 remaining in a sample, scientists can determine how long ago the organism died.

Carbon-14 dating is most effective for organic materials up to about 50,000 years old.

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The electron-domain geometry of a species is the arrangement of electron around the central atom, whereas the molecular geometry is the arrangement of bonded atoms.

Electron-domain geometry refers to the arrangement of the electron pairs (both bonding and non-bonding) around the central atom in a molecule. It is also called the molecular geometry or the electron-pair geometry.

This geometry determines the spatial arrangement of the atoms in a molecule and influences the overall shape of the molecule. The electron-domain geometry is determined by the number of electron pairs around the central atom and the arrangement that minimizes the repulsion between these electron pairs.

Common electron-domain geometries will include linear, octahedral, tetrahedral, trigonal bipyramidal, and trigonal planar.

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To prepare 3,3-dimethyl-2-butanol from 3,3-dimethyl-1-butene without carbocation rearrangement, you can use hydroboration-oxidation reaction. Here's a step-by-step explanation:

1. Hydroboration: In the first step, 3,3-dimethyl-1-butene reacts with borane (BH3) to form an organoborane intermediate. The reaction involves the addition of borane to the double bond of the alkene, where boron attaches to the less substituted carbon and hydrogen to the more substituted carbon. This process is called anti-Markovnikov addition, and it does not involve carbocation rearrangement.

2. Oxidation: In the second step, the organoborane intermediate reacts with hydrogen peroxide (H2O2) and a hydroxide ion (OH-) to form an alcohol. The boron is replaced by an oxygen atom, resulting in the formation of 3,3-dimethyl-2-butanol.

Here's the mechanism:

Step 1: Hydroboration
3,3-dimethyl-1-butene + BH3 -> (CH3)2C(BH2)CHCH3

Step 2: Oxidation
(CH3)2C(BH2)CHCH3 + H2O2 + OH- -> (CH3)2C(OH)CHCH3 + H2O + B(OH)3

In summary, the hydroboration-oxidation reaction allows you to prepare 3,3-dimethyl-2-butanol from 3,3-dimethyl-1-butene without carbocation rearrangement. The mechanism involves the anti-Markovnikov addition of borane to the alkene, followed by the oxidation of the organoborane intermediate with hydrogen peroxide and hydroxide ions to form the desired alcohol.

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The pH of the solution made by 10 ml of 1 M HCl with 10 ml of 2 M NaOH is 1.3.

As we know, pH = -log [H⁺], so it is clear that we have to find [H⁺] in order to find pH.

Balanced chemical equation is given as,

HCl + NaOH → H₂O + NaCl

Moles HCl present = 10 ml x 1 L/1000 ml x 0.10 mol/L = 0.001 moles HCl

Moles NaOH present = 10 ml x 1 L/1000 ml x 0.20 mol/L = 0.002 moles NaOH

Moles HCl left over after reaction with NaOH = 0.001 - 0.002 = -0.001 moles HCl = -0.001 moles H⁺

Final volume of solution = 10 ml + 10 ml = 20 ml = 0.02 L

[H⁺] = -0.001 moles / 0.02 L = -0.05 M

pH = -log (-0.05)

pH = 1.3

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The KHP be completely dissolved before beginning the titration because only the solute is involved in the reaction that is used to find the concentration of the solution in a titration process.

The solution's concentration will not be correct if the KHP crystals are not entirely dissolved before beginning the titration. The solution's concentration will not be correct if the KHP crystals are not entirely dissolved before beginning the titration. Only the solute is involved in the reaction that is used to find the concentration of the solution in a titration process, not the undissolved crystals.

The KHP should be entirely dissolved before beginning the titration because KHP is a solid and, like any other solid, must be entirely dissolved in water before the actual titration. The reaction rate slows down as the amount of solid used in the reaction increases. Even a small amount of undissolved KHP may cause the solution to be inaccurate. Therefore, it is recommended that the KHP be entirely dissolved in water before the titration process starts.

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Atoms fuse, increasing the average size atomic nuclei  accurately describes the process stars use to convert matter into energy .option (b)

In physics, energy (from the Ancient Greek v (enérgeia) 'activity') is a quantitative characteristic that is transmitted to a body or a physical system and is visible in the execution of labor as well as in the shape of heat and light. The rule of conservation of energy says that energy can be converted in shape but cannot be produced or destroyed. The joule is the International System of Units (SI) unit of measurement for energy. (J).

The kinetic energy of a moving object, the potential energy stored by an object (for example, due to its position in a field), the elastic energy stored in a solid object, chemical energy associated with chemical reactions, radiant energy carried by electromagnetic radiation, and internal energy contained within a thermodynamic system are all examples of common forms of energy

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The 10 reactions of glycolysis can be categorized as follows:

(a) Phosphorylations:

Glucose + ATP → Glucose-6-phosphate + ADP

Fructose-6-phosphate + ATP → Fructose-1,6-bisphosphate + ADP

2-phosphoglycerate + 2 ADP → 2 ATP + 2-phosphoenolpyruvate

(b) Isomerizations:

2. Glucose-6-phosphate → Fructose-6-phosphate

Dihydroxyacetone phosphate → Glyceraldehyde-3-phosphate

(c) Oxidation-Reductions:

6. Glyceraldehyde-3-phosphate + NAD+ + Pi → 1,3-Bisphosphoglycerate + NADH + H+

(d) Dehydrations:

4. Fructose-1,6-bisphosphate → Glyceraldehyde-3-phosphate + Dihydroxyacetone phosphate

(e) Carbon-Carbon Cleavages:

8. 2-phosphoenolpyruvate + H2O → Pyruvate + Pi

Enolase: 2-phosphoglycerate → Phosphoenolpyruvate + H2O

Pyruvate kinase: Phosphoenolpyruvate + ADP → Pyruvate + ATP

Therefore, 3 reactions are phosphorylations, 2 are isomerizations, 1 is an oxidation-reduction, 1 is a dehydration, and 3 are carbon-carbon cleavages. These reactions ultimately result in the conversion of glucose to two molecules of pyruvate, generating a small amount of ATP and reducing equivalents in the process.

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8.55 mL of the concentrated acid. To make a 0.285 m hydroiodic acid solution from a stock solution of 12.0 m hydroiodic acid, you must add 8.55 mL of concentrated acid to obtain a total volume of 100 mL of the dilute solution.

Steps-
1. Determine the amount of moles in the desired solution:
Moles = concentration (m) x volume (L)
Moles = 0.285 M x 0.100 L = 0.0285 moles

2. Determine the amount of moles in the stock solution:
Moles = concentration (m) x volume (L)
Moles = 12.0 M x 0.0085 L = 0.102 moles

3. Calculate the amount of concentrated acid needed:
Amount of concentrated acid = (moles in desired solution / moles in stock solution) x volume of stock solution
Amount of concentrated acid = (0.0285 moles / 0.102 moles) x 0.0085 L = 8.55 mL

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During the light-dependent reactions, electron transport leads to the thylakoid space becoming more positively charged.

Light-dependent reactions are a series of biochemical reactions that occur in the thylakoid membranes of chloroplasts during photosynthesis. These reactions transform light energy into chemical energy in the form of ATP and NADPH, which can then be utilized by the Calvin cycle to convert carbon dioxide into glucose.The space within the thylakoid membranes of chloroplasts is known as the thylakoid space. This space, which is surrounded by the thylakoid membrane, is separated from the stroma of the chloroplasts by the thylakoid membrane. The thylakoid space is where the light-dependent reactions of photosynthesis take place.

During electron transport, electrons are passed from one electron carrier to another. These electron carriers are located in the thylakoid membrane of chloroplasts. When electrons are passed from one carrier to another, they lose energy, which is used to transport hydrogen ions (protons) from the stroma of the chloroplasts to the thylakoid space. This movement of protons from the stroma to the thylakoid space causes the thylakoid space to become more positively charged. This creates an electrochemical gradient, which is used by ATP synthase to produce ATP from ADP and phosphate ions. Therefore, electron transport leads to the thylakoid space becoming more positively charged.

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Answer:

D. genetic modification

Explanation:

Out of the given examples, genetic modification represents the use of modern biotechnology. Genetic modification involves the direct manipulation of an organism’s DNA using biotechnology techniques to produce desired traits or characteristics. This is a relatively recent development in biotechnology and is used in various fields such as agriculture, medicine, and environmental science.

Bread making and cheese making are traditional food production techniques that have been used for centuries and do not necessarily involve modern biotechnology. Selective breeding is also a traditional technique that has been used for thousands of years to develop desired traits in plants and animals by choosing which individuals are allowed to reproduce.

The sp3 hybrid orbitals of the N atom overlap with the 1s atomic orbitals of the H atoms to form the N-H sigma bonds in NH3.

In NH3, the N atom uses its sp3 hybrid orbitals to form covalent bonds with three hydrogen atoms. The sp3 hybrid orbitals of the N atom overlap with the 1s atomic orbitals of the H atoms to form four N-H sigma (σ) bonds.

Each of the sp3 hybrid orbitals of the N atom has one lobe that is larger than the other. The larger lobe contains more electron density and overlaps with the 1s orbital of the H atom to form the N-H sigma bond. The smaller lobe of the sp3 hybrid orbital contains less electron density and overlaps with other orbitals or lone pairs of electrons on the N atom.

Therefore, the sp3 hybrid orbitals of the N atom overlap with the 1s atomic orbitals of the H atoms to form the N-H sigma bonds in NH3.

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The empirical formula of this vanadium oxide can be calculated using the following equation:

n(V) = (mass sample x molar mass V)/(final mass - mass sample) x molar mass O

n(V) = (.3546 g x 50.94 g/mol) / (0.6330 g - .3546 g) x 16.00 g/mol

n(V) = 0.66

Therefore, the empirical formula of the vanadium oxide is V2O3.

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The difference between the volume of EDTA used to titrate the sample and the volume of EDTA that reacted with the blank is called the "blank correction." The blank correction is necessary to obtain accurate results in an EDTA titration.

What is EDTA?

EDTA stands for Ethylenediaminetetraacetic acid. EDTA is a chelating agent that is widely used in analytical chemistry to determine the amount of metal ions present in a sample. The metal ions present in the sample are first complexed with EDTA, which forms a stable and soluble complex.

EDTA Titration

EDTA titration is a type of complexometric titration in which EDTA is used as the titrant. The metal ions present in the sample are first complexed with EDTA, which forms a stable and soluble complex. The end point of an EDTA titration is indicated by the color change of an indicator, which is used to signal the presence of free EDTA in the solution.

How to Calculate Blank Correction

The blank correction is calculated by subtracting the volume of EDTA that reacted with the blank from the volume of EDTA that reacted with the sample. The volume of EDTA that reacted with the blank is determined by titrating a blank solution that contains all the reagents except for the metal ion.

The volume of EDTA used to titrate the blank is subtracted from the volume of EDTA used to titrate the sample to obtain the blank correction.

Example

Suppose you want to determine the amount of calcium ion calcium ions in a sample of water. You take a 50.00 mL sample of water and add the appropriate reagents to complex the calcium ions. You titrate the solution with 0.02000 M EDTA, using Eriochrome Black T as the indicator.

The volume of EDTA required to reach the end point is 12.60 mL.

You also perform a blank titration using 50.00 mL of distilled water, Eriochrome Black T, and 0.02000 M EDTA.

The volume of EDTA required to reach the end point in the blank titration is 0.50 mL.

The blank correction is:

Vblank = 0.50 mL V sample = 12.60 mL V corrected = V sample - Vblank V corrected = 12.60 mL - 0.50 mL = 12.10 mL

Therefore, the corrected volume of EDTA that reacted with the sample is 12.10 mL.

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Lithium is the element that reacts more vigorously with water to produce hydrogen gas.

Explanation: The reactivity of metals with water is referred to as "metal-water reaction." Hydrogen gas is produced when a metal reacts with water. Lithium, which is an alkali metal, is highly reactive and will react with water at normal temperatures; hence, it is the most reactive of the alkali metals. Beryllium, on the other hand, does not react with water because its surface is protected by an oxide layer formed by air. The reaction of lithium with water produces a white solid compound known as lithium hydroxide and hydrogen gas. The reaction equation is as follows: 2Li(s) + 2H2O(l) → 2LiOH(aq) + H2(g)The reaction is highly exothermic and releases a lot of heat. As a result, the hydrogen produced may ignite, and the reaction may become explosive. This makes lithium highly reactive with water, producing hydrogen gas as well as fire. This is the reason why lithium metal is usually stored in oil to protect it from the water vapor present in the atmosphere.

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Answer:

A) Convention carries heat to the thermometer

Explanation:

Since convention is the process of heat transfer by the bulk movement of molecules, heat will be transfered to the thermometer from the heating end to the other end.

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We need to add approximately 36.5 mL of 0.246 M HNO3 to 213 mL of 0.00666 M 2,2'-bipyridine to lower the pH to around 4.0.

We can use the Henderson-Hasselbalch equation to calculate the amount of acid needed to reach a certain pH:

pH = pKa + log([base]/[acid])

where [base] and [acid] are the concentrations of the conjugate base and acid, respectively.

In this case, we want to add HNO3 to the 2,2'-bipyridine solution to reach a certain pH. We don't know the exact pH we want to achieve, but we can make an estimate based on the pKa of 2,2'-bipyridine. The pKa of the conjugate acid of 2,2'-bipyridine is around 4.8.

Let's say we want to lower the pH of the solution to around 4.0. We can use the Henderson-Hasselbalch equation to calculate the ratio of [base]/[acid] needed to achieve this:

4.0 = 4.8 + log([base]/[acid])

-0.8 = log([base]/[acid])

[base]/[acid] = 10^(-0.8) = 0.158

So we need the ratio of [base]/[acid] to be 0.158. Since we know the concentration of the base (2,2'-bipyridine) is 0.00666 M, we can calculate the concentration of the acid needed:

[acid] = [base]/0.158 = 0.00666 M / 0.158 = 0.0421 M

We also know the concentration of the HNO3 solution is 0.246 M. We can use the following equation to calculate the volume of HNO3 needed:

moles of HNO3 = volume of HNO3 (in L) x concentration of HNO3 (in M)

moles of HNO3 = volume of 2,2'-bipyridine solution (in L) x concentration of acid (in M)

Since we know the volume and concentration of the 2,2'-bipyridine solution, we can solve for the volume of HNO3:

moles of HNO3 = (213 mL / 1000 mL/L) * 0.0421 M = 0.00897 moles

volume of HNO3 = 0.00897 moles / 0.246 M = 0.0365 L

volume of HNO3 = 36.5 mL

So, we need to add approximately 36.5 mL of 0.246 M HNO3 to 213 mL of 0.00666 M 2,2'-bipyridine to lower the pH to around 4.0.

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The compound I chose is salt, which is commonly known as table salt or sodium chloride. Its chemical formula is NaCl, which indicates that it is composed of one sodium atom (Na) and one chlorine atom (Cl).

The subscript numbers in the formula indicate the number of atoms of each element present in the compound. In the case of NaCl, there is one sodium atom and one chlorine atom, which gives us the formula NaCl.

The formula for salt can also be determined by analyzing the charges on the ions. Sodium (Na) is a metal that forms a positively charged ion (cation) with a charge of +1, while chlorine (Cl) is a nonmetal that forms a negatively charged ion (anion) with a charge of -1. In NaCl, the positive charge of the sodium ion is balanced by the negative charge of the chloride ion, resulting in a neutral compound with no overall charge.

Thus, based on the charges and valences of the elements involved, we can determine that the formula for salt is NaCl and that it contains one sodium atom and one chlorine atom.

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The degree of dissociation of water at 298 K is 1.8 x 10-16.

What is dissociation?

Dissociation, also known as ionization, is a chemical process in which ions or molecules split into smaller particles, such as atoms, ions, or radicals.

For example, when an acid is dissolved in water, it is dissociated, producing hydrogen ions that give the solution an acidic nature.

When it comes to the dissociation of water, the following equation is used:

H2O ↔ H+ + OH-

The degree of dissociation is the extent to which a compound is ionized in solution.

The extent of ionization, represented by, is a dimensionless quantity that varies between 0 and 1.

The extent of dissociation is defined as follows:

α = (number of moles of dissociated ions)/(number of moles of the original substance)

At a specific temperature, each electrolyte has its own degree of dissociation.

Since water is a weak electrolyte, its degree of dissociation is very low, just about 1.8 x 10-16.

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