Two samples of carbon come into contact. Heat will transfer from Sample A to Sample B if the average kinetic energy of Sample A's atoms is _______ the average kinetic energy of Sample B's atoms.

Answer:

D. It reacts with Mg to produce H2.

Answer: Option (D) is the correct answer.

Explanation:

The acetic acid, [tex](CH_{3}COOH)[/tex] present in vinegar reacts wit magnesium and therefore, it releases hydrogen gas and magnesium acetate.

The chemical reaction will be as follows.

       [tex]2CH_{3}COOH + 2Mg \rightarrow 2Mg(CH_{3}COO) + H_{2}[/tex]

An acid is a substance which has pH less than 7 and changes blue litmus red. Acids taste sour as they are acidic in nature and releases hydrogen ions.

Whereas bases have pH greater than 7 and changes red litmus into blue.Bases taste bitter and releases hydroxide ions.

Thus, we can conclude that the statement it reacts with Mg to produce [tex]H_{2}[/tex] best describes the acid found in vinegar (acetic acid).

To find how much calcium is contained in 40.0 g of calcium fluoride, calculate the moles of calcium fluoride and then determine the moles of calcium using its mass. 40.0 g of calcium fluoride contains 0.192 mol of calcium.

To calculate the amount of calcium in 40.0 g of calcium fluoride, we need to first determine the molar mass of calcium fluoride (CaF2), which is 78.08 g/mol. Next, we can calculate the moles of calcium fluoride in 40.0 g using the formula:

Moles = Mass / Molar mass = 40.0 g / 78.08 g/mol = 0.512 mol

Since the calcium fluoride contains 7.70 g of calcium, we can determine the moles of calcium using its molar mass (40.08 g/mol):

Moles of calcium = Mass of calcium / Molar mass of calcium = 7.70 g / 40.08 g/mol = 0.192 mol

Therefore, 40.0 g of calcium fluoride contains 0.192 mol of calcium.

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Answer: Electrons orbit the nucleus

Final answer:

In an atom, electrons are not found in the nucleus but in orbitals around it. These orbitals represent regions of high probability for the electron's location, and their shapes are determined by quantum mechanical wave functions.

Explanation:

The component of an atom that you would not expect to find in the nucleus but might be orbiting around it is the electron. Electrons are found in orbitals, which are regions in space surrounding the nucleus where they are likely to be located. Unlike the Bohr model's simple orbits, these areas are defined by mathematical equations from quantum mechanics, reflecting the dual wave-particle nature of electrons.

The structure of an atom includes a central nucleus, composed of protons and neutrons, which houses most of the atom's mass, with electrons distributed in the space surrounding the nucleus.

Answer:

f.ADP

Explanation:

Answer: F. ADP

Explanation:

The level of ADP is the most important factor in the determination of the rate of Oxidative Phosphorylation.

The rate of oxygen utilization by the Mitochondria is increased when ADP is added and usually returns to its initial level when the added ADP has being converted to ATP.

Answer:

c. triple bond

Explanation:

The shortest and strongest covalent bond is the triple bond. It involves the sharing of three pairs of electrons between two atoms, making it stronger and shorter than single and double bonds. An ionic bond is a different kind of bonding involving the transfer of electrons.

In terms of covalent bonds, the triple bond is both the shortest and the strongest. Covalent bonds are a category of chemical bonding where two atoms share one or more electron pairs. Single bonds are longer and weaker since they involve the sharing of only one pair of electrons. Double bonds involve two pairs and are shorter and stronger. Triple bonds, such as those found in a nitrogen molecule (N2), are the shortest and strongest since they involve the sharing of three pairs of electrons. The ionic bond is not a type of covalent bond, it's a completely different kind of bonding which involves the transfer of electrons from one atom to another, not sharing.

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A. solutions and colloids

Answer:

a. 0.31 g

Explanation:

So, 70 days represent (70 days/ 14 days = 5.0 half-lives).

10 g → (first half-life = 14 days) 5 g → (second half-life = 28 days) 1.5 g → (third half-life = 42 days) 1.25 g → (fourth half-life = 56 days) 0.625 g → (fifth half-life = 70 days) 0.3125 g.

So, the right choice is: a. 0.31 g.

Answer:

0.31 g

Explanation:

proved the answer right below

Answer: The correct answer is D. 273 Kelvin, 0 degrees Celsius, 32 degrees Fahrenheit.

Explanation:

Conversion of degree Celsius to Kelvin :

K=^oC+273

Conversion of degree Celsius to degrees Fahrenheit :

^oF=(\frac{9}{5}\times ^oC)+32

By using these two conversion factors, we get the three temperature readings all mean the same thing.

For option A :

K=^oC+273=100+273=373K

^oF=(\frac{9}{5}\times ^oC)+32=(\frac{9}{5}\times 100)+32=212^oF

For option B :

K=^oC+273=100+273=373K

^oF=(\frac{9}{5}\times ^oC)+32=(\frac{9}{5}\times 100)+32=212^oF

For option C :

K=^oC+273=0+273=273K

^oF=(\frac{9}{5}\times ^oC)+32=(\frac{9}{5}\times 0)+32=32^oF

For option D :

K=^oC+273=0+273=273K

^oF=(\frac{9}{5}\times ^oC)+32=(\frac{9}{5}\times 0)+32=32^oF

From the given options, only option (D) is correct.

Hence, the correct option is, (D) 273 Kelvin, 0 degrees Celsius, 32 degrees Fahrenheit

Hope this helps!

Temperature is a degree of measure of heat and coldness. Temperature readings that are the same are 273 Kelvin, 0 degrees Celsius, 32 degrees Fahrenheit.

Temperature tells about the hotness and the cold degree measure of any substance or object. It can be measured by Kelvin, Celsius or Fahrenheit scale.

Convert degree Celsius to kelvin as:

[tex]\begin{aligned}\rm K &= \rm ^{\circ} C+273\\\\&= 0 + 273 \\\\&= 273 \;\rm kelvin\end{aligned}[/tex]

Convert degree Celsius to Fahrenheit as:

[tex]\begin{aligned}^{\circ} \rm F & = \rm (\dfrac{9}{5}\times ^{\circ} C)+32\\\\&= 0 + 32\\\\&= 32 \;\rm Fahrenheit \end{aligned}[/tex]

Therefore, option D. 273 Kelvin, 0 degrees Celsius, 32 degrees Fahrenheit is the temperature reading that means the same.

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Answer:

= 25 ppm

Explanation:

Given; a sample size of 2000 g contained 0.050 g DDT

It means, 2000 mL sample contained 50 mg DDT

Therefore in ppm we get;

= 50 mg/ 2 L

= 25 mg/L

= 25 ppm

The concentration of DDT in your sample is calculated by dividing the mass of DDT by the total mass and multiplying by 1,000,000. Using your provided values, the DDT concentration is 25 parts per million (PPM).

In the context of your question, you want to know the concentration of DDT in a sample size of 2000 g which contains 0.050 g of DDT in terms of parts per million (PPM). PPM is a unit typically used to express concentrations of pollutants and other trace contaminants in similar low concentration scenarios.

To calculate the concentration in PPM, the formula is quite straightforward. You divide the mass of the contaminant by the total mass of the sample, then multiply the result by 1,000,000.

Using your values:

(mass of DDT / total mass) * 1,000,000 = (0.050g / 2000g) * 1,000,000 = 25 ppm.

This means that there are 25 parts of DDT per every 1,000,000 parts of the sample.

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Final answer:

To find the number of grams in 3 moles of A2, we can use the formula: grams = moles * molar mass. In this case, the number of grams would be 6X grams.

Explanation:

To determine the number of grams in 3 moles of A2, we need to know the molar mass of A2. Assuming A is a diatomic gas, its molar mass would be the sum of the atomic masses of the two atoms in its formula. Let's say the atomic mass of A is X and the atomic mass of B is Y. Since A2 has two atoms of A, the molar mass of A2 would be 2X. Therefore, to find the number of grams in 3 moles of A2, we can use the formula: grams = moles * molar mass. In this case, the number of grams would be 3 * 2X = 6X grams. Hence, the correct option is c.) 6.

The correct answer is c.) 6. in 3 moles of A2 (with an assumed atomic mass of 3 units for element A), there are 18 grams.

To determine the number of grams in 3 moles of A2, we first need to find the molar mass of A2. The molar mass of a substance is the mass in grams of one mole of that substance. Since A2 represents a diatomic molecule (two atoms of A), we'll calculate the molar mass by adding the atomic masses of two atoms of element A.

Looking at the periodic table, suppose the atomic mass of element A is X units. As A2 consists of two atoms of A, the molar mass of A2 is 2 * X units.

Without specific atomic masses provided, let's assume a hypothetical atomic mass of 3 units for element A. Therefore, the molar mass of A2 would be 2 * 3 = 6 units.

Now, to find the grams in 3 moles of A2, we use the formula:

[tex]\[ \text{Grams} = \text{Number of Moles} \times \text{Molar Mass} \][/tex]

Plugging in the values, we get:

[tex]\[ \text{Grams} = 3 \, \text{moles} \times 6 \, \text{units/mol} = 18 \, \text{units} \][/tex]

Thus, in 3 moles of A2 (with an assumed atomic mass of 3 units for element A), there are 18 grams.

This calculation relies on the assumed atomic mass for element A. However, the specific atomic masses for the elements A and B in the diatomic gases are essential for accurate calculations. The given question lacks this information, so the assumption of the atomic mass was necessary for computation.

Answer:

Explanation:

The boiling point is defined as the tempearature at which the vapor pressure of a substance equals the atmospheric pressure.

The vapor pressure is the pressure exerted by the vapor particles above the liquid in a sealed container.

In order to a liquid boil, the particles must have enough kinetic energy to escape from the tliquid to the gas (vapor) phase. With that we can approach the choices:

a. Increasing the air pressure above the lquid.

Incorrect choice.

If the air pressure above the liquids is increased, then the liquid particles will need more energy to escape, which means that this change has a considerable effect on increasing the boiling point.

b. Adding alcohol to the water.

Incorrect choice.

The alcohol  added to the water is a solute. Some of the particles of the alcohol added will ocuppy part of the surface of liquid, reducing the number of particles of water that can escape from the liquid phase to the gas state. This reduces the vapor pressure and cause that the boiling point increase. Then, adding alcohol to the water does has an effect on the boiling point (the boiling point will increase).

c. Adding sodium chloride to the water.

Incorrect choice.

As in the case of adding alcohol, sodium chloride is a solute. Thus, the same analysis drives the condlusion that adding sodium chloride to the water does has an effect on the boiling point (the boiling point will increase).

d. Increasing the amount of water.

Correct choice.

The boiling point is a specific property of the substance: it does not depend on the amount of substance. Then, increasing the amount of water will not affect the boiling point.

Answer:

Energy was released when the sodium and hydroxide ions formed new bonds with the water.

Explanation:

Answer:

The lattice enthalpy of sodium hydroxide is less than the sum of hydration enthalpies of hydroxide ions and sodium ions.

Explanation:

Lattice enthalpy is defined as heat energy required to break 1 mole of crystal lattice.

Hydration enthalpy is defined as amount energy released when 1 mole of ions undergo hydration (surrounding of water molecules).It is always negative.

Enthalpy of solution = Lattice enthalpy + hydration enthalpy

Reaction between sodium hydroxide and water is an example of an exothermic reaction. During this process sodium hydroxide dissociates into sodium ions and hydroxide ions into the water.

The rise in temperature is due to hydration enthalpy of hydroxide ions and sodium ions is greater than that of the lattice enthalpy of the sodium hydroxide. This is the reason behind the warmth of the sodium hydroxide solution.

Do you mean people become part of a 'circut' when a person becomes part of an electrical current?

Answer:

Circuit

Explanation:

People become part of the circuit

Answer:

Based on Boyle's law, which of the following statements is true for an ideal gas at a constant temperature and mole amount?

A) Pressure is directly proportional to volume.

B) Pressure is inversely proportional to volume. CORRECT ANSWER!!!

C) The number of collisions is independent of pressure.

D) The number of collisions decreases with increase in pressure.

B is the CORRECT answer!!!

Based on Boyle's law, pressure is inversely proportional to volume is true for an ideal gas at a constant temperature and mole amount.

Boyle’s law is a gas law which states that the pressure exerted by a gas (of a given mass, kept at a constant temperature) is inversely proportional to the volume occupied by it. In other words, the pressure and volume of a gas are inversely proportional to each other as long as the temperature and the quantity of gas are kept constant.

Boyle’s law is a connection between pressure and volume. It asserts that under constant temperature, the pressure of a specific quantity of gas is inversely proportional to its volume. It is possible to prove the law empirically. The paper discusses a syringe-based experimental approach for verifying the law.

The mathematical equation for Boyle's law is, where P denotes the pressure of the system, V denotes the volume of the gas, k is a constant value representative of the temperature and volume of the system.

The correct answer is option B.

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Answer:

No, it is not balanced.

The balanced equation is: Zn(OH)₂ + 2NaOH → Na₂ZnO₂ + 2H₂O.

Explanation:

The no. of Na atoms in reactants side is 1 but in products side is 2.

The no. of H atoms in reactants side is 3 but in product side is 2.

So, the equation is not balanced.

Zn(OH)₂ + 2NaOH → Na₂ZnO₂ + 2H₂O.

Zn (1), O (4), H (4), and Na (2).

Answer:

[tex]\boxed{\text{3. All of these}}[/tex]

Explanation:

The tarnish on silverware is silver sulfide.

You can remove the tarnish by resting the silverware on a piece of aluminium foil in a pot of boiling water with a small amount of salt.

The reaction is an example of an electrochemical cell.

The half-cell reactions are

3×[Ag₂S(s) + 2e⁻ ⟶ 2Ag(s) + S²⁻(aq)]

2×[Al(s) ⟶ Al³⁺(aq) + 3e⁻]

  2Al³⁺(aq) + 3S²⁻(aq) ⟶ Al₂S₃(s)          

  3Ag₂S(s) + 2Al(s) ⟶ 6Ag(s) + Al₂S₃(s)

The aluminium ions react with the sulfide ions to form aluminium sulfide.

The aluminum atoms lose three electrons each, so they are oxidized.

The silver atoms gain one electron each, so they are reduced.

Thus, the answer is [tex]\boxed{\textbf{3. All of these}}[/tex].

Hi there nice to meet u thank you

Answer : The concentration of silver ion is, [tex]3.8\times 10^{-3}M[/tex]

Explanation :

Equilibrium constant : It is defined as the equilibrium constant. It is defined as the ratio of concentration of products to the concentration of reactants.

The equilibrium expression for the reaction is determined by multiplying the concentrations of products and divided by the concentrations of the reactants and each concentration is raised to the power that is equal to the coefficient in the balanced reaction.

As we know that the concentrations of pure solids and liquids are constant that is they do not change. Thus, they are not included in the equilibrium expression.

The given equilibrium reaction is,

[tex]Ag_2S(s)\rightleftharpoons 2Ag^+(aq)+S^{2-}(aq)[/tex]

The expression of [tex]K[/tex] will be,

[tex]K_{eq}=[Ag^+]^2[S^{2-}][/tex]

[tex]2.4\times 10^{-4}=(2.5\times 110^{-1})^2[S^{2-}][/tex]

[tex][S^{2-}]=3.8\times 10^{-3}M[/tex]

Therefore, the concentration of silver ion is, [tex]3.8\times 10^{-3}M[/tex]

3.84 x 10⁻³ M

Given:

Question:

What is [S²⁻] at equilibrium?

The Process:

For the reaction [tex]\boxed{ \ Ag_2S_{(s)} \rightleftharpoons 2Ag^+_{(aq)} + S^{2-}_{(aq)} \ }[/tex], we can observe that the substances on the right-hand side have a solution phase (aq) that is allowed into the equilibrium constant K.

Remember, pure solids (s) and liquids (l) are disregarded and kept at 1.

Therefore, from the initial formula [tex]\boxed{ \ K = \frac{ [Ag^+]^2.[S^{2-}] }{[Ag_2S]} \ }[/tex] we get the final result [tex]\boxed{ \ K = [Ag^+]^2.[S^{2-}] \ }[/tex].

Let us find out [S²⁻] at equilibrium.

[tex]\boxed{ \ K_{eq} = [Ag^+]^2.[S^{2-}] \ }[/tex]

[tex]\boxed{ \ 2.4 \times 10^{-4} = [2.5 \times 10^{-1}]^2.[S^{2-}] \ }[/tex]

[tex]\boxed{ \ 2.4 \times 10^{-4} = 6.25 \times 10^{-2} \cdot [S^{2-}] \ }[/tex]

[tex]\boxed{ \ [S^{2-}] = \frac{2.4 \times 10^{-4}}{6.25 \times 10^{-2}} \ }[/tex]

Thus we get [S²⁻] at equilibrium equal to [tex]\boxed{ \ [S^{2-}] = 3.84 \times 10^{-3} \ M \ }[/tex]

- - - - - - - - - -

Notes:  

Th answer is A. Hormones are chemical receptors and the x structure is taking it to the nucleus

Answer:

Explanation:

In a chemical reaction, as a result of the law of conservation of mass, reactants combine in fixed proportions to form the products.

Then, a chemical reaction is characterized by cuantitative relations between the atoms and compounds, which permit to make predictions on how much product can be obtained from certain amounts of reactants or how much of each reactant you would need to obtain a desired amount of product.

Stoichiometry is the use of the mole coefficients of a chemical equation to state ratios and set proportions, and, so, determine the number of moles or masses of reactants and products.

The calculation of quantities in chemical reactions is referred to as stoichiometry. It's about using a balanced chemical equation to figure out the quantitative relationships between the amounts of reactants and products. This process can be used in situations like quantitative chemical analysis.

The calculation of quantities in chemical reactions is referred to as stoichiometry. This means using a balanced chemical equation to determine the quantitative relationships between the quantities of reactants and products. In this process, chemical species' coefficients, derived from the balanced chemical equation, are used to provide the relative numbers, allowing a quantitative assessment of the relationships between the substances consumed and produced by the reaction.

Applying stoichiometry becomes particularly essential when dealing with more realistic situations, such as when reactants are not present in stoichiometric amounts. For instance, it is used in quantitative chemical analysis, such as titrations, where the volume of a titrant solution required to fully react with a sample solution is measured. This volume is subsequently used to calculate the concentration of analyte in the sample.

In other words, stoichiometry is the cornerstone of chemical calculations, providing a method to predict yields, determine reaction efficiencies, and understand the fundamental aspects of the reaction's reaction's stoichiometry. Quite simply, stoichiometry is a powerful tool that provides important insights into the world of chemistry.

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Answer:

The correct answer is C) B is a base. I just did it.

Explanation:

Answer:

= 6.0 moles

Explanation:

The equation for the reaction is;

2 CH3OH + 3 O2 → 2 CO2 + 4 H2O

We are given 4.0 moles of CH3OH.

From the reaction; 2 moles of CH3OH requires 3 moles of O2,

Therefore; moles of Oxygen will be;

= 4.0 moles × 3/2

= 6.0 moles

Therefore; 6.0 moles of Oxygen gas are required to react completely with 4.0 moles CH3OH.

Answer:

See below  

Explanation:

A. False. Alpha radiation is more damaging to the cell than beta radiation.

B. True. Beta radiation is less damaging, but it has greater penetrating power, so it can damage more cells.

C. True. Beta particles have greater penetrating power than alpha particles.

D. False. Beta particles are electrons. Alpha particles are much larger helium nuclei.

Answer:

False

True

True

False

Explanation:

Option A is False. Alpha radiation transfers more energy to the absorbing material than a beta particle. So alpha rays damage more cells than beta radiation.  

Option B is True. Beta cells are more penetrating than alpha cells, hence they wreck more havoc.  

Option C is True. Having smaller mass beta particles can travel farther, they penetrate through the skin and are absorbed by the body tissues. Alpha particles are heaver and don’t go past the skin cells.  

Option D is False. Beta particles are fast moving electrons with a negative charge where alpha particles are made up of two neutrons and two protons and so it is a +2 charged helium nucleus.  

Answer: 1.07 V

Explanation: [tex]E^0_{[Zn^{2+}/Zn}=-0.76V[/tex]

[tex]E^0_{[Cu^{2+}/Cu]}=+0.34V[/tex]

The metal with negative reduction potential will easily lose electrons and thus is oxidized and the one with positive reduction potential will easily gain electrons and thus is reduced.

[tex]Zn+Cu^{2+}\rightarrow Zn^{2+}+Cu[/tex]

[tex]E^o_{cell}[/tex] = standard electrode potential =[tex]E^0_{cathode}- E^0_{anode}=0.34-(-0.76)=1.1V[/tex]

Using Nernst equation:

[tex]E_{cell}=E^o_{cell}-\frac{0.0592}{n}\log \frac{[Zn^{2+}]}{[Cu^{2+}]}[/tex]

where,

n = number of electrons in oxidation-reduction reaction = 2

[tex]E_{cell}=1.10-\frac{0.0592}{2}\log \frac{[0.1]}{[0.01]}[/tex]

[tex]E_{cell}=1.07V[/tex]

Answer: 21.9

Explanation:

I got it right

Answer:

       This pH is 7.

Explanation:

Strong acids and strong bases ionize completely in aqueous solutions. The ionization of strong acids produce hydronium ions, H₃O⁺, and the ionization of strong bases produce hydroxide ions, OH⁻.

Since the ionization of strong acids and bases progress until completion, there is not reverse reaction.

The definition of pH is pH = - log [H₃O⁺]. Acids have low pH (below 7, and greater than 0) and bases have high pH (above 7 and less than 14). Neutral solutions have pH = 7.

Acid-base titrations are a method to determine the concentration of an acid from the known concentration of a base, or the concentraion of a base from the known concentration of an acid.

The equivalence point of the titration is the point at which the the number of moles of hydronium ions and hydroxide ions are equal.

Then, at that point, the hydronium and hydroxide ions will be in the stoichiometric proportion to form a neutral solution, i.e. the pH of the solution wiill be 7.

Not all titrations of a strong base with a strong acid have the same pH at the equivalence point. The pH value will be different when a weak acid is titrated with a strong base due to the presence of the weak conjugate base in the reaction mixture.

No, not all titrations of a strong base with a strong acid have the same pH at the equivalence point. For instance, the titration of 25.00 mL of 0.100 M HCl (a strong acid) with 0.100 M NaOH (a strong base) has a pH of 7.00 at the equivalence point. However, when a weak acid, such as acetic acid, is titrated with a strong base like NaOH, the pH at the equivalence point is 8.72, because the reaction mixture contains a weak conjugate base (acetate ion). The pH value at the equivalence point is dependent on whether the acid is strong or weak, and the presence of its conjugate base.

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Answer: Option (B) is the correct answer.

Explanation:

Entropy is the measure of randomness present within the molecules of a substance.

When entropy of a reaction has a positive sign then it means there is an increase in the entropy. On the other hand, when entropy of a reaction has a negative sign then it means there is a decrease in entropy.

As, entropy change = entropy of products - entropy of reactants

And, larger is the value of entropy more will be the number of microstates.

When entropy is negative then entropy of products is less than the entropy of reactants.

This also means that products have small number of available energy microstates than reactants.

Thus, we can conclude that a negative change in entropy indicates that the products have a smaller number of available energy microstates than the reactants.

Answer:

A negative charge of entropy indicates that the product has a smaller number of available energy microstates than the reactants.

Explanation:

Entropy can be defined as the thermodynamic property of the system associated with the randomness of the molecules.  The energy of entropy is represented as the mathematical flow for the availability of the reactants and products.

When the entropy has a negative charge, this indicates that there is a decrease in the entropy of the system.

A positive charge of entropy indicates the increase in the energy of the system. This indicates that there is a greater number of available microstates for the product.

With a negative charge, there is a decrease i.e. the available energy microstates are smaller for the product stating the product has lesser energy as compared to the reactants.

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4.5 x 10^25 molecules of SO2

Answer:

H2O2 - - - - - -> H2O + O2

+1 +2 0

Oxidation O. S.

state of of Oxygen

Oxygen

[tex]2H_{2}O_{2}[/tex]--------->  [tex]2H_{2}O+O_{2}[/tex] is the equation given for the oxidation of peroxide during a redox reaction.

The reaction in which both oxidation and reduction can simultaneously occur to give raise to product is called as redox reaction.

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A. Polyatomic Ion

Why? Nitrogen and Hydrogen are covalently bonded, and there are 4 Nitrogen atoms (fitting the prefix “poly”, meaning “many”).

[tex]NH^{+ 4}[/tex] is a A. Polyatomic ion

When two atoms combine with each other through a covalent bond it leads to the formation of charged species called as polyatomic ions.  

The ammonium cation is a decidedly accused polyatomic particle of the synthetic recipe [tex]NH^{+ 4}[/tex]. It is shaped by the protonation of ammonia.  Ammonium is additionally a general name for decidedly charged or protonated substituted amines and quaternary ammonium cations [tex](NH^{+ 4})[/tex], where at least one hydrogen molecules are supplanted by natural gatherings.