At equilibrium A. All reactions have ceased B. Only the forward reaction continues C. Only the reverse reaction continues D. Both the forward and reverse reactions continues

The number of moles of O₂ used to produce 4 moles of NO is 2 moles

First, shall write the balanced equation. This is given below:

N₂ + O₂ -> 2NO

From the balanced equation above,

2 moles of NO were obtained from 1 mole of O₂

With the above information, we can determine the number of moles of O₂ used to produce 4 moles of NO. This can be obtained as follow:

From the balanced equation above,

2 moles of NO were obtained from 1 mole of O₂

Therefore,

4 moles of NO will be obtain from = (4 × 1) / 2 = 2 moles of O₂

Thus, number of mole of O₂ used is 2 moles

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Chromosomes contain many genes, and genes are instructions for producing proteins.

Chromosomes are thread-like objects that are found in the nucleus (core) of cells. One chromosome is made up of one protein and one DNA molecule. Different chromosome sizes can be packed together into a nucleus thanks to proteins called histones. Our chromosomes would be as tall as ours without them. The exact instructions needed by your cells to create a distinct you are provided by your chromosomes.

There should be 23 pairs of chromosomes in humans (46 total). Chromosomes are divided into one pair of sex chromosomes and 22 numbered pairs (autosomes) (X and Y). You receive a pair of chromosomes, one from each parent. The building blocks of your body are your genes. The instructions to produce proteins are provided by some genes. Your body receives instructions from proteins about the kinds of physical traits you ought to have, such as your hair and eye colour. Some genes produce RNA that performs additional functions.

Hence, genetic information is translated into protein based on need.

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11. The Lewis structure of [tex]NO_{3}[/tex]  can see in the Attachment.

12. The number of electron groups around a molecule with a trigonal bipyramidal shape is 5.

13. The electron geometry (eg) and molecular geometry (mg) of [tex]BCl_{3}[/tex] is

eg = trigonal planar, mg =  trigonal planar

Thus, the correct answers are

11. C

12. E

13. There is no correct options in the question.

The “Electron Group” geometry of eаch centrаl аtom in а structure cаn be determined by simply counting the number of “groups” of electrons аround the аtom, then considering how those groups would аrrаnge themselves to be аs fаr аpаrt аs possible.

The structure [tex]BCl_{3}[/tex] moleculаr geometry is trigonаl plаnаr. The bond аngle is 120°. The centrаl аtom аlso hаs а symmetric chаrge аround it аnd the molecule is non-polаr.

Your question number 13 is incomplete, but most probably your full question  can see in the Attachment.

Thus, the correct answer for question number 13 is A.

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0.5 NaCl is definitely hypotonic.

Hypotonic is a term used to describe a solution that has a lower solute concentration than another solution, such as a cell. In osmosis, water will move from an area of lower solute concentration to an area of higher solute concentration. This can cause a cell to swell and burst when placed in a hypotonic solution.

This means that it has a lower concentration of solutes than the other solution, or the cell in which it is placed. It can help to draw water out of the cell, which can cause a cell to swell or even burst if too much water is drawn out. Hypotonic solutions are used to help treat dehydration and to aid in the absorption of medications.

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Total number of valence electrons in the Lewis structure of XeO4 is 32.

Valence electrons are electrons that located in the outermost electron shell of an atom. These electrons, being the furthest from the nucleus and thus the least tightly held by the atom, are the electrons that participate in bonds.

Lewis structure - A Lewis Structure is a very simplified representation of the valence shell electrons in a molecule. It is used to show how the electrons are arranged around individual atoms in a molecule.

Lewis structure of XeO4 is made up of one xenon and four oxygen atom, the xenon is in a central position, and all oxygen is at the surrounding position. There are four double bonds(Xe=O) present in the XeO4 lewis structure. The lewis structure of XeO4 contains 8 pairs of nonbonding electrons and 8 pairs of bonding electrons.

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The elements which tends to form ionic bonds are metals and non-metals. Hence, the compounds that are formed from metals and nonmetals have ionic bonds between them.

Ionic bond, also known as electrovalent bond is a type of linkage that is formed from the electrostatic attraction between oppositely charged ions in a chemical compound. Ionic bonds are formed when the valence (outermost) electrons of one atom are transferred permanently to another atom.

Ionic compounds are generally formed between elements that are metals and elements that are nonmetals. For example, let's consider the metal calcium (Ca) and the nonmetal chlorine (Cl) form the ionic compound calcium chloride (CaCl₂). In this ionic compound, there are two negative chloride ions (anions) for each positive calcium ion (cations).

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The fundamental distinction between electron domain geometry and molecular geometry is that electron geometry is found by taking both lone electron coordinates and bonds in the atom while molecular geometry is found utilizing just the bonds present in the atom.

Electron domain geometry is the state of a particle anticipated by considering both bond electron matches and solitary electron matches. The VSEPR hypothesis expresses that electron matches situated around a specific molecule repulse one another. These electron matches can be either holding electrons or non-holding electrons.

Molecular geometry is the state of a molecule anticipated by considering just bond electron matches. For this situation, lone electron matches are not considered. Also, two fold bonds and triple bonds are considered as single bonds.

Electron geometry is found by taking both the lone electron pairs and the bonds in a molecule whereas molecular geometry is found by using only the bonds present in the molecule.

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Two-resonance Lewis structure for TeO₂ can be seen on attached file. Resonance structures are a representation of a single polyatomic that contain two or more Lewis structures.

What is Lewis structure?

Lewis structure is a simple representation of how electrons position around every atom in a molecule. It is also can be define as a portrayal of valence electron in the molecule. Here is the step to draw the Lewis structure:

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At 20°C, 100 grams of water can dissolve up to 37.2 grams of sodium nitrate.

Dissolving is a physical process where a solid material is broken down into smaller particles and distributed within a liquid. This process can be achieved through several methods, such as applying heat, pressure, chemical reactions, or mechanical agitation. In a physical sense, dissolving is a process of taking a solid or liquid and forming a solution, which is a mixture of two or more substances. Dissolving is an important process in many industries, such as food production, pharmaceuticals, and chemical engineering. Dissolving is also used in everyday life, such as when adding sugar to tea or coffee.

This is due to the fact that sodium nitrate has a solubility of 37.2g/100g of water at 20°C. Solubility is the maximum amount of a substance that can be dissolved in a given amount of solvent (in this case, water). As the temperature increases, the solubility of sodium nitrate also increases.

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The four main ways that enzymes can bind to and catalyze a reaction: Lock and Key Model, Induced Fit Model, Multi-Substrate Model, Cofactor Model.

Lock and Key Model: In this model, the enzyme has a specific active site that fits the shape of the substrate like a lock fits a key. The substrate fits into the active site, and the enzyme catalyzes the reaction.

Induced Fit Model: In this model, the enzyme's active site is flexible and changes shape slightly to fit the substrate. The substrate and enzyme still fit together specifically, but the active site changes shape slightly to better accommodate the substrate.

Multi-Substrate Model: In this model, the enzyme has multiple active sites and can bind to and catalyze the reaction of multiple substrates simultaneously.

Cofactor Model: In this model, the enzyme requires an additional molecule, called a cofactor, to catalyze the reaction. The cofactor may be a metal ion or a small organic molecule, and it binds to the enzyme to increase its activity.

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Option (B) 3-dimethylbutan-2-amine is the primary organic product generated by the following process.

It should be emphasized that the ketone and primary amine reaction takes place in an acidic buffer. The primary organic product of this reaction is ethyl chloride. Carbohydrates, fats (lipids), proteins, and nucleic acids are examples of organic chemicals that serve as the foundation for life's molecules. Petroleum and natural gas, which are the major components of fossil fuels, are also organic molecules. The addition of hydrogen bromide to propene yields 2-Bromopropane. As a result, option B is the correct answer. 3-dimethylbutan-2-amine is the primary organic product generated by the following process.

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The ratio of the root mean square of the molecules of an ideal gas at 270K and 30K

Vrms/ V'rms = √ T/T' = √270/30= 3:1

The root mean square of the molecules is given by

Vrms= √3RT/m

T is the temperature

m is the mass of the molecules

R is the Gas constant

In the question, it is given

T = 270K

T'= 30K

Thus, applying the above formula

Vrms (T) = √3R × 270/m

Vems(T') = √3R×30/m

Dividing the two

Vrms(T) / Vrms(T') = √270/30=√9= 3

Hence, the ratio of the RMS of molecules of an ideal gas at 270K and 30K

Vrms/ V'rms = √ T/T' = √270/30= 3:1

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The standard electrode of zinc is -0.76 V means that the zinc electrode behaves as an anode.

The negative sign of the standard potential suggests that when the electrode is attached to the Standard Hydrogen electrode (SHE) it behaves as an anode. Oxidation takes places at anode. Standard electrode potential is the potential measured for the half cell against the Standard electrode at the standard conditions.

Therefore, the standard electrode of zinc is -0.76 V means that the Zinc electrode behaves as an anode and oxidation occur at this electrode.

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Answer:

You have these materials the solid compound a glass container a spoon and a conductivity apparatus.

Explanation:

Duration, temperature, mechanical treatment, chemical reaction, and methods are the five main aspects that influence cleaning and are all equally crucial.

Ground conditions, notably groundwater level, soil permeability, and soil stability, are significant factors in the selection of sanitation technology.

The following three things need to be taken into account:Concentration: If there is insufficient sanitizer present, hazardous germs won't be sufficiently reduced.A lot of it can be harmful.Chemical sanitizers typically function best in liquid that is between 55°F (13°C) and 120°F in temperature (49oC).

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The chemical equations showing synthesis of  3-cyanocyclopentanol from cyclopentanol is attached in the image below.

Chemical equation is a symbolic representation of a chemical reaction which is written in the form of symbols and chemical formulas.The reactants are present on the left hand side while the products are present on the right hand side.

The first chemical equation was put forth by Jean Beguin in 1615.By making use of chemical equations the direction of reaction ,state of reactants and products can be stated. In the chemical equations even the temperature to be maintained and catalyst can be mentioned.

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The IR absorption frequencies of the functional groups is  follows 3000-3300-Sp2 C-H stretching; 1500-1800-C=O stretching; 1400 -1500-Aromatic C=C stretching; 600-900-Alkene =C-H bending.

A number of steps are used to demonstrate the base-catalyzed aldol condensation synthesis of dibenzalacetone. The electrophilic carbonyl carbon in benzaldehyde is attacked in step one by an acetone anion acting as a nucleophile, resulting in the formation of a hydroxyl ketone.

After the hydroxide exits in step two, a double bond is created. The active nucleophile then transforms into an intermediate and attacks a benzaldehyde to create the second hydroxyl ketone.

In step three, the reaction is repeated, resulting in the formation of a second double bond, dibenzalacetone. There are three possible isomers of dibenzalacetone. Trans, trans (E,E), trans, cis (E,Z), and cis, cis are the three distinct isomers (Z,Z).

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There are 18 valence electrons in total, and eight of them are used to create the four sigma covalent bonds in HCOOH ([tex]CH_{2}O_{2}[/tex]). Lewis structure is given below.

There are 18 valence electrons in the Lewis structure of HCOOH. Eight bonding electrons from them create four sigma covalent bonds in the Lewis structure of HCOOH. The last 10 electrons are non-bonding electrons that are located on the two oxygen atoms of the Lewis structure of HCOOH. Five of the ten non-bonding electrons on the HCOOH Lewis structure, which is supported by two oxygen atoms, are lone pair electrons. There are three lone pair electrons on one oxygen atom and two on another oxygen atom. As a result, there are five lone electron pairs altogether in the HCOOH Lewis structure.

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The four types of bonds in chemistry are ionic , covalent , hydrogen and polar covalent bond.

Generally the elements have an incomplete octet or an incomplete duplet . In order to gain noble gas configuration these elements reacts with each other to complete their octet or duplet.

This leads to formation of bond between them.

Bonds are formed either by losing an electron or by gaining an electron. Metal loses electrons forming cations whereas non metals gain electrons forming an anion.

Hydrogen bond is a weak bond in nature as they are based on Van der walls force of attraction whereas the others are strong bonds.

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When a carbon atom bonds with one s-orbital and two p orbitals, it becomes sp2 hybridized. Between the three atoms, two single bonds and one double bond are formed.

What is Hybridization of carbon ?

Four sp3 orbitals are created when the 2s and all three of the 2p orbitals of carbon combine. Through an overlap of the sp3 and s orbitals, these orbitals subsequently form a link with four hydrogen atoms to form methane.

According to the given question:

Carbon consists of six electrons. In the 1s orbital, just outside the nucleus, there will be two of them. The following two will enter the orbital phase 2s. The rest will be split into two distinct 2p orbitals.

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It takes 0.4402 grams of magnesium to remove every copper (II) ion from the solution.

A substance's mole is equivalent to 6.022 x 1023 of that material (such as atoms, molecules, or ions). The term "Avogadro's number" or "Avogadro's constant" refers to the number 6.022 1023.

Mg(s) + Cu² (aq) → Cu(s) + Mg²(aq)

According to reaction , 1 mole of copper (II) ion reacts with 1 mole of magnesium solid .

Then 0.01834 moles of copper (II) ion will react with :

1 × 0.01834 mol = 0.01834 mol of magnesium

Mass of 0.01834 moles of magnesium :

0.01834 mol × 24 g/mol = 0.4402  g

0.4402 grams of Mg is needed to displace all of the copper (II) ions from the solution.

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Answer:

1.08 mol

Explanation:

To find the number of moles of potassium carbonate (K2CO3) in a 150.0 g sample, you need to know the molar mass of K2CO3. The molar mass is the mass of one mole of a substance, and it is expressed in grams per mole (g/mol).

The molar mass of K2CO3 is 138.20 g/mol. To find the number of moles in a 150.0 g sample, you can divide the mass of the sample by the molar mass:

Number of moles = mass / molar mass

= 150.0 g / 138.20 g/mol

= 1.08 mol

Therefore, there are 1.08 moles of K2CO3 in a 150.0 g sample.

Answer:

1.09 mol

Explanation:

The mass of K₂CO3 is 138

How

by calculating the individual molecular mass

K₂ + C + O3

= 2(39) + 12 + 3(16)

= 78 + 12 + 48

= 138g

formula for finding mole is

[tex]mole = \frac{given \: mass}{molar \: mass} [/tex]

[tex]mole = \frac{150}{138} [/tex]

mole = 1.0869565217

approximately

mole = 1.09 (2d.p)

i hope this helps

When an air and fuel mixture has more gas than what is required for efficient combustion, a lean burn results.The ideal combustion ratio for burning propane entirely is 1 part propane (4%) to 24 parts air (96%).

If the area has a cold snap while your propane tank is much less than 20% full, you may run out of propane faster than you expect.If there isn't any propane, your house won't be warm.Without heat, your home is dangerous and uncomfortably cold.Additionally, it's possible for your pipes to freeze or explode.

Yes, they could, although this usually only applies to the portable, 20-lb grilling tanks, not the larger ones.A warm summer day can easily raise temperatures.Even as the portable propane tank warms up, the pressure will rise.

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Matt's cube, after 5 trials, had an average density of 7.40 g/cm3. From this data, Matt's group was able to determine that the cube was made of zinc.

Zinc is a silver-white metal that is commonly used for galvanizing, die-casting, and other industrial uses. It has a relatively low melting point compared to other metals, and its density is 7.14 g/cm3, making it a relatively dense metal. The average density of 7.40 g/cm3, as measured by Matt's group, is also slightly higher than the expected value of 7.14 g/cm3, possibly due to the presence of impurities in the alloy.

In order to identify the metal cube, Matt's group relied on the physical properties of the metal to make their determination. They measured the density of the cube and compared it to the expected values for various metals. By doing this, they were able to narrow down the possible metals to zinc, and their final determination was that the cube was made of zinc.

The experiment was a great success for Matt's group, as they were able to take the data they collected and accurately identify the metal the cube was made of. Through this experiment, Matt and his group were able to demonstrate their understanding of physical properties and how they can help identify various substances.

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The molecules move more quickly as the temperature rises, and their kinetic energies are better equipped to overcome the forces holding them together. As a result, the viscosity of the liquid reduces.

Because particles interact more quickly and for shorter periods of time as temperature rises, viscosity will also decrease because internal friction or stress will be reduced.

The molecules become more mobile when the temperature rises due to an increase in kinetic or thermal energy. Reduced viscosity results from a decrease in the attractive binding energy.

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Answer:

Wasp stings

For tummy aches and high acidity in the stomach

Tooth decays

To treat soils which are acidic

Bee stings

The accurate lewis structure for a CH₃CH₂COOH molecule is in the image attached to this answer.

Lewis structure is a very simplified representation of a molecule. It was introduced in 1916 by Gilbert N. Lewis. Lewis structure shows a molecule, what atoms it's composed of, where each atom is located, the bonds between each atoms, and whether there is any excess electrons or not.

In the Lewis structure of a CH₃CH₂COOH molecule, you can see that:

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When you push repelling ends of magnets together really hard and let go of one of the magnets, you have reduced the potential energy between the magnets.

When we talk about a magnet, we are talking about a material in which the magnetic domains have been properly aligned. The implication of this is that the material is able to cause the magnetic fields of other materials to  also become aligned.

Thus the magnet is able to pick up the materials that are magnetizable such as the metals that can be attracted by it. If two magnets are repelling, the potential energy between the magnets would  decrease as the magnet are being pushed apart.

As such, when you push the magnets together, the potential energy that is existing between the magnets would become reduced.

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When comparing the boiling points of 0.1 m NaCl and 0.1 m BaCl2 solutions in water, it is important to note that NaCl has a higher boiling point.

Boiling point is the temperature at which a liquid changes state from liquid to gas. At this temperature, the vapor pressure of the liquid is equal to the atmospheric pressure, and the liquid is said to be at its boiling point. Boiling point can vary depending on the atmospheric pressure, which is affected by elevation and weather. Generally, the higher the atmospheric pressure, the higher the boiling point of the liquid.
This is because NaCl is an ionic compound, which means it is composed of charged particles that form strong bonds with each other. These bonds are much more difficult to break than the weaker hydrogen bonds that form between molecules in BaCl2. Therefore, the boiling point of 0.1 m NaCl solution in water will be higher than the boiling point of 0.1 m BaCl2 solution in water.
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Answer:

Phosphorus pentoxide when phosphorus smoulders in excess oxygen produces phosphorus pentoxide; this is a very strong oxidizer and can catch fire easily.

Explanation:

When phosphorus smoulders in excess Oxygen it reacts with the oxygen to form Phosphorus pentoxide, a strong oxidizing agent, which makes it catch fire easily if there is any contact with other flammable materials.