0. 302 grams of an antibiotic was dissolved in enough water at 23. 6°C to make 500. 0 mL of solution. The solution has an osmotic pressure of 8. 34 mm Hg. What is the molar mass of the antibiotic?

Yes, the solubility of X in water at 17°C can be calculated using the given information. The solubility of X is 0.00118 kg/L.

To determine the solubility, we need to assume that all of the X is dissolved in the solution and use the solubility of X at 33°C.

Solubility of X at 33°C = 12.0 g/L = 0.012 kg/L

Volume of solution = 650 mL = 0.65 L

Therefore, the initial mass of X in the solution is: 0.012 kg/L × 0.65 L = 0.0078 kg

Now we need to determine the final mass of X in the solution after cooling. Since a precipitate has formed, we know that some of the X has come out of solution. Let's assume that all of the additional precipitate that formed came from X. Therefore, the final mass of X in the solution is: 0.0078 kg - 0.150 kg = 0.00765 kg = 7.65 g

Now we can use the final mass of X and the volume of the remaining liquid solution to calculate the solubility of X at 17°C.

Solubility of X at 17.9°C = mass of X / volume of solution at 17.9°C = 7.65 g / 0.65 L = 11.8 g/L = 0.0118 kg/L

Therefore, the solubility of X in water at 17°C is 0.0118 kg/L.

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Answer: The law was applicable only to calcium. It could not include other elements beyond calcium.  With the discovery of rare gases, it was the ninth element and not the eighth element having similar chemical properties.

Explanation:

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Charged ions such as sodium, potassium, and chloride are called electrolytes.

Ions are atoms or molecules that have a positive or negative charge. They develop an electrical charge when an atom or molecule gains or loses one or more electrons, becoming an ion. Cations are ions with a positive charge, whereas anions are ions with a negative charge. The conductivity of fluids is due to charged ions like electrolytes.

Sodium, potassium, chloride, bicarbonate, calcium, and phosphate are examples of electrolytes that are vital for the body's daily function. Electrolytes play a significant role in maintaining the correct water balance and assisting in the transmission of electric impulses across cells.

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When the flashlight is turned on and the lights are turned off, the white paper on the wall will appear bright as it reflects the light from the flashlight. However, when a clear plastic is placed in front of the flashlight, the light hitting the white paper on the wall will be affected.

The clear plastic acts as a lens, which changes the direction and intensity of the light passing through it. As the light passes through the plastic, it refracts or bends, causing the beam of light to spread out or focus. This results in a change in the shape and size of the light beam hitting the white paper on the wall.

The effect of the plastic on the light hitting the paper will depend on the shape and thickness of the plastic, as well as its distance from the flashlight. In general, the plastic will cause the light beam to spread out or focus differently, resulting in a change in the appearance of the light hitting the paper on the wall.

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The correct equation that correctly represents the chemical equation associated with the enthalpy of the formation of nitrogen dioxide gas is "½ N2(g) + O2(g) → NO2(g)".

Nitrogen dioxide is a chemical compound with the chemical formula NO2. It is a gas with a sharp, biting odor and is a prominent air pollutant. It is one of the principal oxides of nitrogen.

The enthalpy of formation (ΔHf°) of nitrogen dioxide gas, NO2, is 33.8 kJ/mol. Enthalpy of formation is defined as the amount of energy liberated or absorbed when a compound is formed from its constituent elements under standard conditions.

Here, ½ N2(g) + O2(g) → NO2(g) is the equation that correctly represents the chemical equation associated with this enthalpy of formation. The energy absorbed or released in the formation of one mole of nitrogen dioxide from 1/2 mole of nitrogen gas and one mole of oxygen gas is 33.8 kJ/mol.

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The curve will have the points (0, 8.04), (halfway, 8.04), (equivalence point, 8.04), and (endpoint, 14). The points can then be connected to create a graph of the pH over the course of the titration.

At the start of the titration, before any KOH has been added, the concentration of HBrO is 0.200 M and the concentration of KOH is 0.000 M, so the pH can be calculated as:

pH = 8.04 + log ([0.000]/[0.200]) = 8.04 + log (0) = 8.04.

When the equivalence point is reached, the concentrations of the two reactants are equal, so the pH can be calculated as:

pH = 8.04 + log ([0.200]/[0.200]) = 8.04 + log (1) = 8.04.

At the end of the titration, when all of the KOH has been added, the concentration of KOH is 0.140 M and the concentration of HBrO is 0.000 M, so the pH can be calculated as:

pH = 14 + log ([0.140]/[0.000]) = 14 + log (infinity) = 14.

Using these four points, a titration curve can be drawn to represent the pH of the solution throughout the titration. The curve will have the points (0, 8.04), (halfway, 8.04), (equivalence point, 8.04), and (endpoint, 14). The points can then be connected to create a graph of the pH over the course of the titration.

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The compound that will readily react with the solution of bromine resulting from the mixture of hydrobromic acid and hydrogen peroxide is option (a) Cyclohexene.

A solution is a specific kind of homogenous mixture made up of two or more components that is used in chemistry. A solute is a substance that has been dissolved in a solvent, which is the other substance in the mixture.

Free bromine (Br2), a potent electrophilic and oxidizing agent, can be produced in situ by mixing hydrobromic acid (HBr) and hydrogen peroxide (H2O2). So, we must choose a substance that Br2 can easily react with in these circumstances.

Cyclohexene, one of the provided compounds, is an unsaturated double-bonded molecule that can go through electrophilic addition processes. With alkenes like cyclohexene, bromine easily engages in an electrophilic addition process to generate a dibromoalkane.

Hence, option (a) cyclohexene is the substance that will most rapidly react with the bromine solution produced by the mixture of hydrobromic acid and hydrogen peroxide.

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The technique of bioremediation involves using local microorganisms to absorb or degrade different parts of spilled oil in maritime environments.

Bacteria can be utilised to remediate oil spills in the marine through bioremediation. Hydrocarbons, which are found in oil and gasoline, are one type of specialised contamination that can be bioremediated using particular bacteria.

As a result of bioremediation, there is no longer a need to collect and shift the harmful substances to another location because natural organisms may convert the toxic molecules into harmless simple molecules (Venosa).

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Answer:

a)Electron domain geometry around nitrogen-1 is tetrahedral

b)Hybridization around carbon-1 is sp2

c)The ideal bond angles around oxygen-1 are 120 degrees.

d)Hybrid orbitals overlapping to form the sigma bond between oxygen-1 and nitrogen-2 is sp2 hybrid orbitals from carbon-1 and nitrogen-2

e)There are no pi bonds in the molecule.

Explanation:

a) Electron domain geometry around nitrogen-1 is tetrahedral.The molecular structure of linuron is as follows: There are three carbon atoms in a row. The terminal carbon atom is linked to a methyl group and a chlorine atom. The carbon atom next to it is linked to the nitrogen atom in the herbicide. The third carbon atom is linked to two oxygen atoms, with one of them being a hydroxyl group.

b) Hybridization around carbon-1 is sp2.The carbon atom adjacent to the nitrogen atom is known as carbon-1. This carbon atom is joined to three other atoms. It has an sp2 hybridization since it has three regions of electron density.

c) The ideal bond angles around oxygen-1 are 120 degrees.Bond angles are the angles between two adjacent lines in a Lewis structure. Because oxygen-1 is linked to two other atoms, it has a bent geometry. Its ideal bond angle is 120 degrees.

d) Hybrid orbitals overlapping to form the sigma bond between oxygen-1 and nitrogen-2 is sp2 hybrid orbitals from carbon-1 and nitrogen-2.The sigma bond is the strongest type of covalent bond. Sigma bonds are created when the overlapping orbitals are arranged in a straight line. The sigma bond between oxygen-1 and nitrogen-2 is formed by the overlap of sp2 hybrid orbitals from carbon-1 and nitrogen-2.

e) There are no pi bonds in the molecule.There are no pi bonds in the molecule because all of the bonds are sigma bonds. The molecule consists of single bonds only.

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In the catalytic triad, the purpose of the aspartic acid residue is to activate the serine residue by removing a hydrogen ion (H+) from the serine residue, causing it to become a highly reactive alkoxide ion.

The catalytic triad is a trio of amino acid residues that play a significant role in catalyzing reactions in a diverse range of enzymes. The residues found in the triad are typically present in the active site of an enzyme, where they work together to catalyze a reaction.Aside from the aspartic acid residue, the catalytic triad also contains two other amino acid residues: serine and histidine. These three residues work together to carry out the enzyme's function. In the case of the aspartic acid residue, its primary role is to activate the serine residue by removing a hydrogen ion (H+) from the serine residue, causing it to become a highly reactive alkoxide ion. This highly reactive ion then goes on to react with the enzyme's substrate, resulting in the desired reaction.Catalytic triads are found in a variety of enzymes, including chymotrypsin, trypsin, and elastase. Each of these enzymes has a slightly different catalytic triad that is uniquely suited to catalyzing the specific reaction the enzyme carries out.

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AgCl is an insoluble salt. In water, it ionizes into Ag+ and Cl- ions. The equilibrium constant for the dissociation reaction of AgCl is known as Ksp.

The molar solubility of a sparingly soluble salt is defined as the amount of the salt dissolved in water to form a saturated solution at a given temperature. The Ksp expression can be used to determine the solubility of a sparingly soluble salt like AgCl.

Saturated solution refers to a solution that contains the maximum amount of solute that can be dissolved at a given temperature.

To calculate the Ksp of AgCl in this solution, the molar solubility must first be determined. The number of Ag+ ions in solution is given as 1.25 x 10^-5 M.

According to the balanced equation:

AgCl ↔ Ag+ + Cl-

Ksp = [Ag+][Cl-] = (1.25 x 10^-5 M)(1.25 x 10^-5 M)

Ksp = 1.56 x 10^-10

Since, the value of Ksp is extremely small, it indicates that AgCl is a sparingly soluble salt.

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The density of the liquid is 0.562 g/mL, the volume in milliliters is about 1.59 mL, and the mass of 0.285mL sample is about 0.224 grams.

The formula for density is as follows:

Density = mass/volume

Density = 0.155 g/0.000275 L= 562.1 g/L

We know that, 1 L = 1000 mL

So, Density = 562.1 g/L × 1 L/1000 mL= 0.562 g/mL

The density of the given liquid is 0.562 g/mL.

Density = mass/volume

Rearranging the above formula we get,

Volume = mass/density

Density = 3.03 g/mL, Mass = 4.83 g

Volume = 4.83 g/3.03 g/mL= 1.59 mL

Therefore, the volume in milliliters of a 4.83 g sample of a solid with a density of 3.03 g/mL is 1.59 mL.

Mass = density × volume

M = D × V

Density = 0.789 g/mL, Volume = 0.285 mL

Mass = 0.789 g/mL × 0.285 mL= 0.224 g

Therefore, the mass of a 0.285-mL sample of a liquid with density 0.789 g/mL is 0.224 g.

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Carboxylic acids are more acidic than water or ethyl alcohol esters due to their stronger resonance stabilization. Carboxylic acids contain a carboxyl group (COOH) that is able to stabilize the extra electron density of the conjugate base (COO-) through resonance. The more electron-withdrawing atoms in the carboxyl group, the more stable the resonance structure and therefore the stronger the acid. Water and ethyl alcohol esters, on the other hand, have less electron-withdrawing atoms, so their conjugate base is not as stable and their acidity is less than that of carboxylic acids.

Additionally, carboxylic acids tend to have smaller molecules than water or ethyl alcohol esters. This means that their conjugate base will have a stronger interaction with the proton and therefore the acid is stronger. In contrast, water and ethyl alcohol esters are larger molecules and their conjugate base is less capable of stabilizing the proton and thus making the acid less acidic.  

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The compound that behaves as an acid when dissolved in water is HI (hydrogen iodide). Thus, the correct option will be D.

HI is an Arrhenius acid, meaning it produces hydrogen ions (H⁺) in aqueous solution. The compound that behaves as an acid when dissolved in the water Hydrogen iodide (HI). HI is a diatomic molecule and a colorless gas at room temperature.

Hydrogen iodide is a strong acid when dissolved in water, with a pKa of −10. Hydrogen iodide is also used as a reducing agent in organic chemistry in the production of iodinated compounds.

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It is important to keep the electrodes in a fixed relative position during electrolysis as it affects the current that passes through the solution.

For example, if the electrodes are placed too close together, the current will be too strong and can cause damage to the system. Additionally, having the electrodes in a parallel position ensures that the current flows evenly through the entire solution. This is because having the electrodes parallel helps to ensure that the current flows in the same direction and not at different angles. This helps to keep the current steady and prevents hot spots or localized over-voltage. In conclusion, it is necessary to keep the electrodes in a fixed relative position, parallel to each other, during electrolysis to ensure the current is distributed evenly and not too strong.

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During the formation of a water molecule, we focus on the oxygen atom. In hybridization of H2O, the oxygen atom is sp3hybridized.

The  molecule that is the main product of the Calvin cycle is glucose. The Calvin cycle is also known as the light-independent reactions.

It is a series of biochemical reactions that occur in the stroma of the chloroplast in photosynthetic organisms to produce glucose. The Calvin cycle is made up of three stages: Carbon fixation, Reduction and regeneration of ribulose bisphosphate. Here's a breakdown of each stage:

Carbon fixation: Carbon dioxide enters the Calvin cycle and is converted to organic molecules. During carbon fixation, Rubisco, which is a crucial enzyme in photosynthesis, catalyzes the reaction between carbon dioxide and ribulose bisphosphate, leading to the formation of a six-carbon molecule that splits into two three-carbon molecules. This three-carbon molecule is the starting material for the reduction process.

Reduction: The ATP and NADPH produced during the light-dependent reactions are used to convert the three-carbon molecule produced during carbon fixation into glyceraldehyde-3-phosphate. This process involves a series of biochemical reactions that require the use of energy from ATP and electrons from NADPH.

Regeneration of ribulose bisphosphate: Glyceraldehyde-3-phosphate, which is the main product of the Calvin cycle, is used to regenerate the starting material for carbon fixation, ribulose bisphosphate. During this stage, ATP is used to convert the remaining glyceraldehyde-3-phosphate molecules into ribulose bisphosphate. The Calvin cycle is an essential process in photosynthesis, as it produces glucose, which is the main source of energy for plants and other photosynthetic organisms.

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A scientist dilutes 50.0 ml of a pH 5.85 solution of HCl to 1.00 L. The pH of the diluted solution (Kw = 1.0 × 10-14) is approximately 1.85.

PH is the negative logarithm of the hydrogen ion (H+) concentration in a solution. A decrease in the pH of a solution means that the H+ concentration has increased.

The following formula can be used to calculate the pH of a solution:

pH = -log[H+]

The number of hydrogen ions per liter of solution is referred to as the hydrogen ion concentration [H+]. In addition, the hydroxide ion (OH-) concentration may be calculated using the following formula:

[H+] [OH-] = 1.0 × 10-14

The pH of the solution can be calculated using the equation given below:

5.85 = -log[H+]5.85 = -log[H+]H+ = 1.38 x 10-6

The number of moles of HCl in 50 mL of a 5.85 pH solution is 0.00138 mol. The number of moles of HCl after dilution to 1.00 L can be determined using the equation below:

n1V1 = n2V2

0.00138 mol x 50 ml = n2 x 1.00 LN2 = 0.0000276 mol

After dilution, the HCl concentration is 0.0000276 moles/liter. The hydroxide ion concentration [OH-] in the solution can be determined using the formula given below:

[H+] [OH-] = 1.0 × 10-140.0000276 [OH-] = 1.0 × 10-14[OH-] = 3.6 x 10-10 mol/L

The pH of the solution can be calculated using the equation given below:

pH = -log[H+]pH = -log(3.6 × 10-10)pH = 9.44

The pH of the diluted solution (Kw = 1.0 × 10-14) is approximately 1.85.

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No approximations or assumptions need to be made in the calculation of the pH and the tartrate ion 1C4H4O6 2-2 concentration for a 0.250 M solution of tartaric acid.

The pH and the tartrate ion 1C4H4O6 2-2 concentration of a 0.250 M solution of tartaric acid can be calculated using the acid-dissociation constants and the Henderson-Hasselbalch equation. The acid-dissociation constants (Ka1 and Ka2) of tartaric acid are 1.14x10-2 and 5.01x10-5, respectively.

The pH of the solution can be calculated using the Henderson-Hasselbalch equation: pH = pKa + log([base]/[acid]) where [base] is the concentration of the conjugate base (the tartrate ion) and [acid] is the concentration of the acid (tartaric acid). Since the solution is 0.250 M in tartaric acid, [acid] = 0.250 M and [base] = 0.250 M - [tartrate ion], which can be calculated using the Ka1 and Ka2 values.

For Ka1, the tartrate ion 1C4H4O6 2-2 concentration can be calculated as 0.250 M - 0.250 * 1.14x10-2 = 0.249 M. For Ka2, the tartrate ion 1C4H4O6 2-2 concentration can be calculated as 0.250 M - 0.250 * 5.01x10-5 = 0.249 M.

Using the Henderson-Hasselbalch equation, the pH of the solution can be calculated as pH = pKa + log([base]/[acid]). The pKa values of tartaric acid are 3.92 and 5.63 respectively. Therefore, for Ka1, the pH of the solution can be calculated as pH = 3.92 + log(0.249/0.250) = 3.91, and for Ka2, the pH of the solution can be calculated as pH = 5.63 + log(0.249/0.250) = 5.63.

No approximations or assumptions need to be made in the calculation of the pH and the tartrate ion 1C4H4O6 2-2 concentration for a 0.250 M solution of tartaric acid, as the Henderson-Hasselbalch equation and the acid-dissociation constants of tartaric acid can be used.

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Answer:

True

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A - Air Vent

B - Gas Inlet

C - Barrel or Tube

D - Collar

A collar is a band of fabric, leather, or other material worn around the neck, typically to protect clothing from dirt or as a fashion accessory.

In the context of pet ownership, a collar is a band worn around an animal's neck, often with identification tags attached.

In finance, a collar is an investment strategy that involves buying or selling options to limit the range of possible returns on an underlying asset.

In construction, a collar is a short vertical framing member used to connect two horizontal beams or joists.

An investment is the purchase of goods that are not consumed today but are used in the future to create wealth or generate income. In other words, it is the allocation of resources with the aim of obtaining a profitable return over a period of time.

Investments can take many forms, including stocks, bonds, real estate, mutual funds, and more. The key is to invest with a view towards achieving long-term financial goals, such as retirement, education funding, or wealth accumulation.

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Answer:

Because if we changed the subscript number we will change the identity of the compound and we Well creat a new compound  or substance different than what they gave us to balance also the law of conservation of mass states that the mass cannot be created nor destroyed.

Explanation:

The positively charged particles found in nucleus of an atom and those are called protons.

Protons are found in the nucleus of the atom. This is a tiny, dense region at the center of the atom. Protons have a positive electrical charge of one (+1) and a mass of 1 atomic mass unit which is about 1.67×10−27 kilograms. There are 2 types of particles in the nucleus. Those particles are neutrons and protons. The positively particle called as protons have unit positive charge and neutrons are neutral in charge.

An atom is defined as a particle of matter that uniquely defines a chemical element. This consists of a central nucleus that is surrounded by one or more negatively charged electrons. It is evident that the nucleus is positively charged and contains one or more relatively heavy particles known as protons and neutrons.

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The breakdown of 6.54 g of potassium chlorate results in the production of 4.81 x [tex]10^{22}[/tex]oxygen molecules.

The balanced chemical equation for the decomposition of potassium chlorate is:

2 KClO3(s) → 2 KCl(s) + 3 O2(g)

This equation tells us that for every 2 moles of potassium chlorate that decompose, 3 moles of oxygen gas are produced.

To determine the number of molecules of oxygen produced by the decomposition of 6.54 g of potassium chlorate, we first need to convert the mass of potassium chlorate to moles using its molar mass. The molar mass of KCLO₃ is:

K: 39.10 g/mol

Cl: 35.45 g/mol

O: 3(16.00 g/mol) = 48.00 g/mol

Total molar mass of KCLO₃: 39.10 + 3(35.45) + 48.00 = 122.55 g/mol

Number of moles of KCLO₃ = 6.54 g / 122.55 g/mol = 0.0533 mol

Now we can use the mole ratio from the balanced equation to calculate the number of moles of oxygen produced:

3 moles O₂ / 2 moles KCLO₃ = x moles O₂ / 0.0533 moles KCLO₃

x = 3/2 x 0.0533 = 0.0799 moles O₂

Finally, we can convert the number of moles of oxygen to the number of molecules using Avogadro's number:

Number of molecules of O2 = 0.0799 mol x 6.022 x [tex]10^{23}[/tex] molecules/mol = 4.81 x [tex]10^{22}[/tex] molecules

Therefore, 4.81 x [tex]10^{22}[/tex] molecules of oxygen are produced by the decomposition of 6.54 g of potassium chlorate.

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When we say that liquid water is unstable on Mars, we mean that any liquid water on the surface would quickly either freeze or evaporate. The correct option is c.

Mars is the fourth planet from the sun in the Solar System, with a diameter of around 6,779 kilometers (4,212 miles) and a day length of around 24.6 hours. It's also known as the Red Planet because of its reddish appearance. It is a terrestrial planet, which means that it is similar in structure and composition to Earth.The temperature on Mars:The temperature on Mars can be as cold as -143 degrees Celsius and as high as 35 degrees

Mars also has a very low atmospheric pressure, making it difficult for humans to live on the planet. "Water is a vital component for life as we know it, but it is also a challenging molecule to handle becau'se of its complicated properties. On Mars, the presence of water is vital to determining whether or not the planet could have supported life in the past, now, or in the future. Therefore, the correct option is c.

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The solution has a hydronium ion concentration of 1.78 x 10-10 M.

Because of this, the concentration of HCl determines the hydronium ion concentration, which is 0.10 M in HCl and 0.10 M in HCOOH.

We must first formulate the balanced chemical equation for the reaction between ammonia and hydrochloric acid in order to tackle this issue:

NH3 + HCl → NH4+ + Cl-

To accomplish this, we must determine how many moles of each reagent are present in the solution:

moles of NH3 = 0.250 M x 0.1500 L = 0.0375 moles

moles of HCl = 0.200 M x 0.1000 L = 0.0200 moles

Secondly, we must determine how many moles of NH4+ and Cl- ions were generated by the reaction:

moles of NH4+ = 0.0200 moles

moles of Cl- = 0.0200 moles

We can figure out how many NH4+ ions are present in the solution:

[ NH4+ ] = moles / volume = 0.0200 moles / 0.250 L = 0.080 M

We must take into account the fact that NH4+ is a weak acid and will undergo the following reaction with water in order to determine the concentration of hydronium ions:

NH4+ + H2O ⇌ H3O+ + NH3

This reaction's equilibrium constant is represented by the following symbol:

Kw / Kb = Ka

To find Ka, we can rearrange this equation as follows:

Ka = Kw / Kb = (1.0 x 10-14) / (1.80 x 10-5), which is 5.56 x 10-10.

The equilibrium expression for the reaction between NH4+ and water may now be written as follows:

Ka = [H3O+][NH3]/[NH4+].

To solve for [H3O+], we can rewrite the equation above as follows:

[ H3O+ ] = (Ka x [ NH4+ ]) / [ NH3 ] = (5.56 x 10^-10) x (0.080 M) / (0.250 M) = 1.78 x 10^-10 M

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Answer:

Gravity helps move water into the ground.

Strong acid: H₂SO₄

Weak acid: H₂SO₃, HCN

Strong base: Sr(OH)₂, LiOH

Weak base: NH₃, H₂S

Acids are chemical compounds that, when dissolved in water, release hydrogen ions (H+). Their sour taste, capacity to make litmus paper red, and propensity to combine with bases to produce salts and water are what distinguish them. Depending on how much an acid dissociates in water, it can be characterised as either a strong or weak acid.

In water, strong acids like sulfuric and hydrochloric acid totally dissociate to create H+ ions and anions. In water, weak acids like acetic acid and carbonic acid only partially dissociate.

Acids play an important role in many chemical reactions and are used in various applications such as food and beverage processing, pharmaceuticals, and cleaning agents.

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N2 is the limiting reagent since it produces less NH3.

What is Limiting Reagent?

In a chemical reaction, the limiting reagent is the reactant that is completely consumed and limits the amount of product that can be formed. The amount of product formed is determined by the amount of limiting reagent available. The reactant that is not completely consumed is called the excess reagent, and some of it remains after the reaction is complete.

To determine which reactant is the limiting reagent, we need to calculate the number of moles of each reactant.

Moles of H2 = mass / molar mass = 83.6 g / 2.016 g/mol = 41.5 mol

Moles of N2 = mass / molar mass = 257 g / 28.02 g/mol = 9.17 mol

According to the balanced chemical equation, 1 mole of N2 reacts with 3 moles of H2 to produce 2 moles of NH3. Therefore, to react completely, 1 mole of N2 requires 3 moles of H2. Since we have more than enough H2 to react with the available N2, H2 is not the limiting reagent.

To calculate the moles of NH3 produced, we need to determine the limiting reagent.

Moles of NH3 produced if H2 is limiting reagent = 41.5 mol / 3 mol H2 per 2 mol NH3 = 27.67 mol NH3

Moles of NH3 produced if N2 is limiting reagent = 9.17 mol / 1 mol N2 per 2 mol NH3 = 4.58 mol NH3

Therefore, N2 is the limiting reagent since it produces less NH3.

We can tell that N2 is the limiting reagent because it produces less NH3 compared to the amount that would be produced if all of the H2 was used up in the reaction.

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