What is the electron configuration for magnesium (Mg)?
The Periodic Table
O A. 1s²2s22p²3s6
OB. 3s 3p 304
O C. 1s²2s22p3s²
O D. 1s22s23s23p6

Answer:

Explanation:

Hope this helps

This is an exercise in the General Combined Gas Law.

To start solving this exercise, we obtain the following data:

We apply the following formula:

Where:

We clear for final pressure (P2)

[tex]\large\displaystyle\text{$\begin{gathered}\sf P_{2}=\frac{P_{1}V_{1}T_{2}}{V_{2}T_{1}} \ \ \to \ \ \ Formula \end{gathered}$}[/tex]

We substitute our data into the formula:

[tex]\large\displaystyle\text{$\begin{gathered}\sf P_{2}=\frac{(365 \ mmHg)(4.00 \not{l})(303 \not{K})}{(2.80 \not{l})(293\not{K})} \end{gathered}$}[/tex]

[tex]\large\displaystyle\text{$\begin{gathered}\sf P_{2}=\frac{442380 \ mmHg}{ 820.4 } \end{gathered}$}[/tex]

[tex]\boxed{\large\displaystyle\text{$\begin{gathered}\sf P_{2}=539.224 \ mmHg \end{gathered}$}}[/tex]

Answer: The new canister pressure is 539.224 mmHg.

The oxidizing and reducing agent in the above redox reaction are hydrogen sulphide (H2S) and Chlorine (Cl) respectively.

An oxidizing agent is any substance that oxidizes, or receives electrons from another substance and as a result, becoming reduced.

On the other hand, a reducing agent is any substance that reduces or donates electrons to another and as a result becomes oxidized.

According to this reaction; H2S(aq) + Cl2(g) -> S(s) + 2HCI (aq)

Therefore, the oxidizing and reducing agent in the above redox reaction are hydrogen sulphide (H2S) and Chlorine (Cl) respectively.

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Giant covalent structures are brittle and shatter when hit this statement is true.

Hence, Option D is correct answer.

Ionic bonds is a chemical bond formed when one atom transfer its valence electron to another atom. Ionic bond is also called electrovalent bond. These bonds are stronger.

The 3-D structure of atom which are joined by covalent bond is called giant covalent structure. Giant covalent substances are brittle and they shatter when hit because covalent bond break at once. Giant covalent structure have very high melting and boiling point.

A larger ionic charges in a compound makes a weaker ionic bond. The larger ions have high melting point.

Thus from the above conclusion we can say that Giant covalent structures are brittle and shatter when hit this statement is true.

Hence, Option D is correct answer.

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The mass of carbon dioxide produced by the complete combustion of 48.0g of hexane is 147.35g.

The mass of a substance can be calculated by using the stoichiometry approach.

The balanced equation of the complete combustion of hexane is as follows:

2C6H14(g) + 19O2(g) → 12CO2(g) + 14H2O(g)

48g of hexane to moles is calculated as:

48g ÷ 86g/mol = 0.56 mol

2 moles of hexane produces 12 moles of CO2

0.56 mol of hexane will produce 0.56 × 12/2 = 3.35 mol

Next, we convert 3.35 moles of CO2 to mass as follows:

3.35 moles × 44g/mol = 147.35g

Therefore, the mass of carbon dioxide produced by the complete combustion of 48.0g of hexane is 147.35g.

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Answer:

[tex]D. \ \ \ \text{hydroxyl}[/tex]

Explanation:

Alcohols are organic compounds that are composed of the hydroxyl function group ([tex]-\text{OH}[/tex]), bonded to a carbon atom of an alkyl or a substituted alkyl group. Hence, the functional group of alcohols is the hydroxyl group ([tex]-\text{OH}[/tex]).

According to the International Union of Pure and Applied Chemistry (IUPAC) nomenclature, alcohols are named by changing the -e ending of the name of the parent alkane to the suffix -ol.

For example, the alcohol molecule in the figure demonstrates a hydroxyl group bonded to a methyl group. Therefore, the name of the alcohol is methanol.

Ideal gas law is valid only for ideal gas not for vanderwaal gas. Therefore, the correct option is option D that is low P, high T, high n. Ideal gas is a hypothetical gas.

Ideal gas equation is the mathematical expression that relates pressure volume and temperature. Vanderwaal gas can behave as ideal gas at low pressure and high temperature.

Mathematically, the ideal gas equation can be written as

PV=nRT

where, the symbols have the following meaning

P = pressure of ideal gas

V= volume  of ideal gas

n =number of moles  of ideal gas

T =temperature  of ideal gas

R = Gas constant = 0.0821 L.atm/K.mol

The conditions of P, T, and n that are most ideal are low P, high T, high n.

Therefore, the correct option is option D that is low P, high T, high n.

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Answer:

Noble Metals are found as pure metals becuase they are nonreactive and don't conmbine with other elements to form compounds.

Explanation:

Hope it help :)

Explanation:

Na2WO4 2Na+ + wo4 2-

2Au3+ + 3wo42- Au2(WO4)3

Answer:

Explanation:

If you are looking for a weak acid then answer should be b. 6

pH scale goes from 0-14. 0-6 being acid, 7 being neutral, 8-14 being base.

Strong acids are typically low pH like 0-1, since 6 is not in that range it is weak acid.

Option A and C describe base since they are above 7.

The element is Sodium with an atomic number of 11 and electrovalent bonding takes place when it comes near an atom having seven valence electrons.

This is also referred to as ionic bonding and involves the transfer of atoms of an element to another.

In order for both of them to achieve a stable octet configuration, sodium donates one atom to the element seven valence electrons.

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Answer: A single electron from the outermost shell of this element will move into the outermost shell of the atom with seven electrons.

Explanation:

Answer:

The ion will attract the substance because it has more electrons than protons.

Based on the law of conservation of mass, the expected yield of the decomposition reaction is 100% which is equal to the mass of the reactant.

According to the law of conservation of mass, the mass of products formed when 1 mole of sodium bicarbonate is decomposed by heat will be equal to the mass of one mole of sodium bicarbonate.

The balanced equation of the reaction is given below:

Molar mass of NaHCO₃ = 84. 0 g/mol

Molar mass of Na₂CO₃ = 106 g/mol

Molar mass of H₂0 = 18 g/mol

Molar mass of CO₂ = 44 g/mol

Based on the mole ratio as given in the equation of reaction,

mass of Na₂CO₃ produced = 1/2 * 106 = 53 g

mass of H₂O produced = 1/2 * 18 = 9 g

Mass of CO₂ produced = 1/2 * 44 g/mol = 22 g

Total mass of products = 53 + 9 + 22 = 84.0 g

Therefore, the yield of the decomposition reaction is equal to the mass of the reactant.

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The false statement is that the reaction of 17 g of NH3 will produce 27 g of water. (Option D)

A balanced reaction equation is one in which the number of atoms of each element on the right hand side of the equation is equal to the number of atoms of the same element on the left and side of the reaction equation.

The equation of the reaction is 4 NH3 + 5 O2 → 4 NO + 6 H₂O. The number of atoms of each element on both sides are equal.

Hence, the statement that is false from the reaction equation is; "the reaction of 17 g of NH3 will produce 27 g of water".

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Answer: D

Explanation:

The balanced equation are as follows:

A chemical equation is said to be balanced when the number of moles of each element on both sides of the equation are equal.

According to this question, two equations are given to remove harmful NO and NO2 gases from jet exhaust.

The balanced chemical equations are given below:

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13) The limiting reagent is water.

14) Oxyge is in excess by 1.15 mol

13) According to the equation of the reaction:

[tex]2Na + 2H_2O --- > 2NaOH + H_2[/tex]

The mole ratio of the reactants is 1:1.

But 3.10 mol of sodium and 4.17 mol of water were reacted. Thus, water is in excess while sodium is limiting.

14) [tex]2Ca + O_2 --- > 2CaO[/tex]

Mole ratio of reactants = 2:1

4.80 mol Ca and 3.55 mol oxygen were reacted. Thus, oxygen is in excess.

Excess oxygen = 3.55 - 4.80/2 = 1.15 mol

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Oil drops do not spread across hot water because the surface tension of hot water is lower than that of oil. The water molecules cannot share intermolecular forces with the oil molecules. Thus the correct option is C.

Oil has a higher surface tension than hot soup. It prevents an oil drop from spreading over the heated soup. The surface tension of oil is lower than that of soup when the soup's temperature drops. As a result, the oil drop begins to spread across the soup.

The cohesive force between oil molecules is less than the adhesive force between oil and water molecules. As a result, water molecules and oil molecules do not mix.

Thus the correct option is C.

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Answer:

3.1×10^13×917= 2842.7×10^13 kg

2842.7×10^13×334=949,461.8×10^13 KJ

Explanation:

First off you convert m³ to kg then convert Kg to Kj

The amount of heat required to melt the iceberg is [tex]9.58 * 10^{18}kJ[/tex]

Latent heat of fusion is the amount of heat required to melt an unit mass of ice.

Mass of iceberg is [tex]3.1*10^{13} m^{3} *917Kg =2.8427*10^{16} Kg[/tex]

Amount of heat required is calculated as:

[tex]2.8427* 10^{16} * 334 =9.58* 10^{18}kJ[/tex]

Hence, the amount of heat required to melt the iceberg is [tex]9.58*10^{18}kJ[/tex]

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Solar energy is a non-pollutant, which means it doesn't pollute the environment. so therefore A is the correct answer.

Answer:

Explanation                                                                                          unhealthy diet  brings about early or late commence  of adolescence especially  in girls                                                                                                                          

Answer:

hydrogen

Explanation:

because it is my own ideal

Answer:

Mn

Explanation:

Looks like Mn   ( Manganese) from the Periodic Table of elements)

there are 25 electrons......25 protons  ....atomic number 25 = Mn

Answer:

Basic

Explanation:

The pH scale is measured from 0 to 14.

At the pH scale of 7, a solution is neutral.

Any solution above 7 is basic.

Any solution below 7 is acidic.

Because you have been given the hydronium concentration [H₃O⁺], you can find the pH of the solution using the following formula:

pH = -log[H₃O⁺]

pH = -log(6.0 x 10⁻¹²)

pH = 11.22

As you can see, the solution must be basic because the pH lies within the basic range.

The theoretical yield of [tex]SnS_2[/tex] will be 4.20 grams while the percent yield will be 7.93%

From the equation of the reaction, the mole ratio of [tex]SnBr_4[/tex] to [tex]Na_2S[/tex] is 1:2.

Mole of 48.1 mL, 0.478 M  [tex]SnBr_4[/tex] = 0.478 x 48.1/100 = 0.023 mols

Mole of 48.8 mL, 0.160 M   [tex]Na_2S[/tex] = 0.160 x 48.8/1000 = 0.0078 moles

[tex]SnBr_4[/tex][tex]Na_2S[/tex] is the limiting reactant.

Mole ratio of  [tex]SnBr_4[/tex]  and [tex]SnS_2[/tex] = 1:1

Equivalent mole of  [tex]SnS_2[/tex] = 0.023 moles

Mass of 0.023 noles [tex]SnS_2[/tex]= 0.023 x 182.81 = 4.20 grams

With 0.0333 g of [tex]SnS_2[/tex] recovered, percent yield = 0.333/4.2 x 100 = 7.93%

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Tin(IV) sulfide, SnS2, a yellow pigment, can be produced using the following reaction.

SnBr4(aq)+2Na2S(aq)⟶4NaBr(aq)+SnS2(s)

Suppose a student adds 48.1 mL of a 0.478 M solution of SnBr4 to 48.8 mL of a 0.160 M solution of Na2S.

1) Calculate the theoretical yield of SnS2. ;

2) The student recovers 0.333 g of SnS2. Calculate the percent yield of SnS2 that the student obtained.

For 1 mole of S₂O₃²⁻  0.5 mole of S₂O₈²⁻  will be used.

A reaction in which the number of atoms in reactants is equal to the number of atoms in the products is called a balanced reaction.

The reaction given in the question is

S₂O₈²⁻   + 2I⁻      ⇄   2SO₄²⁻ + I₂

I₂ + 2S₂O₃²⁻ ⇄ 2I⁻ + S₄O₆²⁻

Adding the equation will give balance equation

S₂O₈²⁻  + 2I⁻  + 2S₂O₃²⁻   ⇄ 2SO₄²⁻  + 2I⁻ + S₄O₆²⁻

So x moles of S₂O₈²⁻ require 2x of S₂O₃²⁻

for 1 mole of S₂O₃²⁻  0.5 mole of S₂O₈²⁻  will be used.

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Answer:

Olefin production is a petrochemical process in which saturated hydrocarbons are broken down into smaller, regularly unsaturated ones