The innermost electron shell of an atom can hold up to _____ electrons.

Answer:

b) low permeability

Explanation:

In landfills, materials with low porosity and low permeability are often placed under the soil to prevent pollution.

Permeability deals with the inter-connectivity of pore spaces within a rock or soil unit. Permeability aids the movement or transmission of fluids within the pores of a rock. When pore spaces are interconnected, permeability increases. This would eventually lead to leaking of dissolved materials from the landfill into the ground water system and can contaminate the environment.

Answer:

Explanation:

Stoichiometry is the cuantitative study of the chemical reactions.

It is like algebra applied to chemical equations.

The cuantitative relations between the amount of reactants and products is determined by the law of conservation of mass: the number of each kind of atoms in the reactants must equal the number of the same kind of atoms in the products.

Once that relation has been established, as mole ratios, then it can be determined the amount of reactant neeed to obtain a certain amount of product, or vice versa, determine the amount of product that can be obtained from a given amount of reactants.

That is why, after you know the reactants and products in a chemical equation you must balance to assure that the relative amounts are properly established.

Final answer:

The first step in most stoichiometry problems is to plan the problem by writing and balancing the chemical equation correctly, which is foundational for accurate stoichiometry calculations.

Explanation:

The first step in most stoichiometry problems is to plan the problem. This typically involves writing and balancing the chemical equation. Ensuring that all formulas are correct and balanced is crucial as it lays the foundation for all subsequent calculations in the stoichiometry process. Once the equation is balanced, you can proceed to write the ionic and net ionic equations if necessary, assign oxidation numbers, or derive stoichiometric factors to relate the amounts of substances involved. It is also important to identify the 'given' information and what the problem is asking you to 'find,' as well as list other known quantities.

Answer:

KIKOKEN

Explanation:

Answer:

The answer would be 2. carbon compounds.

Hope this helps!

Brainliest?

Answer:

Option C) 1,230 kJ

Explanation:

According to the data, 1 mol of propane liberates 2,220 kJ of energy when it is combusted. If we have 24.5 g of propane, this mass is equal to 0,56 mol (of propane):

44.097 g of propane---->1 mol

24.5 g of propane-------x= 0.56 mol

Then, the enthalpy of the described chemical reaction (propane´s combustion) is 2,220 kJ when 1 mol of propane is combusted, so:

1 mol propane---------->2,220 kJ of energy

0.56 mol propane (24.5 g)------------x= aproximately 1,24 kJ (which would be option C)

To calculate the enthalpy of combustion for 24.5g propane, divide the mass by the molecular weight to obtain the number of moles. Then, multiply the moles by the given enthalpy of reaction to find the enthalpy of combustion. The enthalpy of combustion for 24.5g propane is 1,230 kJ.

To calculate the enthalpy of combustion for 24.5g propane, we need to first convert the mass of propane to moles. Dividing the mass by the molecular weight of propane gives us 24.5 g / 44.097 g/mol = 0.5558 mol. Then, we can use the equation given to calculate the enthalpy of combustion:

Enthalpy of combustion = ΔHreaction * moles of propane

Plugging in the values, we get:
Enthalpy of combustion = 2,220 kJ/mol * 0.5558 mol = 1,230 kJ

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Alpha particles are respective to the helium-4 ion. Therefore it has a mass of four and a positive charge of two. The correct answer is the mass number increases by 4.

If a nucleus emits an alpha particle, the mass number decreases by 4

An alpha particle is essentially identical to a helium nucleus. An alpha particle has a mass of four units and a positive charge of two units just as the helium nucleus.

Hence, if a nucleus emits an alpha particle, the mass number decreases by 4 while the atomic number decreases by two.

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Answer:

Look at explanation

Explanation:

Size of particles increases, rate of reaction decreases, and vise versa

Catalyst causes the rate of reaction to increase

Concentration increases, rate of reaction increases, and vise versa

Temperature increases, rate of reaction increases, and vise versa

Answer:-

Name of Chemical Compound: (if given otherwise not necessary) Ethane.

Chemical formula: C2H6.

Finding molar mass of Ethane(C2H6):-

Molar mass of Ethane = 12×2+1×6

Molar mass of Ethane = 2 + 6

Molar mass of Ethane = 30 g/mol

[ Note:

• Molar mass: Mass(is represented/taken in grams)of one mole of a substance.

• g/mol means grams per mole ].

Answer:

Molar mass of ethane is determined by adding atomic mass of all the constituent atoms.

Explanation:

Molar mass of a molecule is determined by adding all the atomic masses of constituent atoms.

In ethane molecule, there are two carbon atoms and six hydrogen atoms.

Atomic mass of carbon is 12g and atomic mass of hydrogen is 1g.

So molar mass of ethane is- [tex](2\times atomic mass of C)+(6\times atomic mass of H)[/tex] or [tex](2\times 12g)+(6\times 1g)[/tex] or 30g.

Answer:

C

Explanation:

Answer:

D

Explanation:measurement of heat The usual means of measuring temperature is a thermometer. It measures the degree or intensity of heat and usually consists of a glass tube with a bulb at the lower portion of the tube that contains mercury, colored alcohol, or a volatile liquid.

These are two questions and two complete answers.

Answers:

Explanation:

A) Question #5.

The figure shows that the parent nuclide is [tex]^{222}_{86}Ra[/tex] and the daughter nuclide is [tex]^{218}_{84}Po[/tex]

A mass number balance and an atomic number balance show the features of the radiation emitted.

a) Mass number balance:

The mass number is the superscript to the left of the chemical symbol and is the amount of protons and neutrons in the nucleus of the atom.

Hence, the mass number of the unknown emitted particle is 4.

b) Atomic number balance.

The atomic number is the subscript to the left of the chemical symbol and is the number of protons in the nucleus of the atom.

Hence, the atomic number (number of protons) of the unknown emitted particle is 2.

Conclusion: the emitted particle is a particle with 2 protons and 2 neutrons, which is a nucleus of helium, ⁴₂He, also called alpha particle, and the reaction is named alpha decay.

B) Question #6

Again, a mass number balance and an atomic number balance will tell which element is the missing product in the reaction.

The reaction is:

[tex]^{233}_{92}U+^1_0n{->}^{99}_{42}Mo+3^1_0n+?[/tex]

a) Atomic number balance:

Hence, the missing product has atomic number 50 which permits to tell that it is an atom of tin (Sn).

b) Mass number balance:

Which means that the missing product has a 132 neutrons and protons:

The symbol of this atom is:

A water molecule consists of two hydrogen atoms bonded to an oxygen atom, and its overall structureis bent. This is because the oxygen atom, in addition to forming bonds with the hydrogen atoms, also carries two pairs of unshared electrons.

Answer:

Explanation:

The structure of water molecule is very simple . it's has a central oxygen atom ( which has a valency of two ) . Since it's valency is two , it can two hydrogen atoms to both of it's sides ( which have a valency of one )

Structure :

H-O-H

Water is known as amphoteric substance , as it has the ability to act as either a base or an acid ( depending upon the substance it's reacting with ) . On top of that a very electro negative oxygen atom reacts with an electro positive hydrogen gives the molecule a strong bonding force ( which results in a molecule that is held by hydrogen bonding , which is a very strong attraction) . And when its bonded with some strong electro forces of attraction , Guess what happens ? It's boiling point increases !!!! ( It means you have to heat it up more to boil water ) . Which also means it has high heat of vaporization ( to get water into it's vapour state ) .all of that just because it has high forces if attraction between one another ...

Answer:

5.4 M.

Explanation:

(MV)acid = (MV)NaOH

M of acid = ??? M, V of acid = 35.0 mL.

M of NaOH = 3.0 M, V of NaOH = 63.0 mL.

∴ M of acid = (MV)NaOH / (V)acid = (3.0 M)(63.0 mL)/(35.0 mL) = 5.4 M.

The value of q when e = 0 at the given temperature in the question is :

Q =  1.3 * 10⁻²⁶

Given that

E = 0,  ΔG = -nFE,

therefore ΔG = 0

Also

Given that

ΔG = ΔG° + RTIn q

ΔG° = -  RTIn q

Hence ; Q = e^ (nFE°cell / RT) -- ( 1 )

where : n = 2, F = 96500, E°cell = -0.87 volt, R = 8.314, T = 339 k

insert  values into equation ( 1 )

Q =  1.3 * 10⁻²⁶

Note :  E°cell = reduction half reaction + oxidation half reaction

          = 0.20 volt - 1.07 volt  = -0.87 volt.

Hence we can conclude that The value of q when e = 0 at the given temperature in the question is : Q =  1.3 * 10⁻²⁶

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Answer:

2.2 J/°C.g.

Explanation:

Q = m.c.ΔT,

where, Q is the amount of heat released by the unknown substance (Q = 550 J).

m is the mass of the unknown mass (m = 25.0 g).

c is the specific heat of the unknown substance (c = ??? J/°C.g).

ΔT is the difference between the initial and final temperature (ΔT = 10°C).

∴ c = Q/(m.ΔT) = (550 J)/(25.0 g)(10°C) = 2.2 J/°C.g.

Answer:

64 000 C; 71 min

Explanation:

1. Number of coulombs

a. Write the equation for the half-reaction.

Ca²⁺ + 2e⁻ ⟶ Ca

b. Calculate the moles of Ca

Moles of Ca = 13.3 g Ca × (1 mol Ca/40.08 g Ca) = 0.3318 mol Ca

c. Calculate the moles of electrons

Moles of electrons = 0.3318 mol Ca × (2 mol electrons/1 mol Ca) = 0.6637 mol electrons

d. Calculate the number of coulombs

No. of coulombs = 0.6637 mol electrons × (96 485 C/1 mol electrons)

= 64 000 C

It takes 64 000 C to produce 13.3 g of Ca.

2. Time required

Q  = It  

t = Q/I = 64 000 C/15 C·s⁻¹ = 4270 s

t = 4270 s × 1 min/60 s = 71 min

The process will take 71 min.

Answer:

PV=nRT

Explanation:

P stands for Pressure T for absolute temperature, n is the number of moles of the ideal gas which is calculated by dividing the mass of the gas by the relative molecular mass, that is, mass(grams)/ RMM, R is the univeral gas  constant=8.31441J/Kmol

Option D) PV =nRT is the correct answer.

The equation that represents pressure-volume-temperature-mole relationship of an ideal gas is PV = nRT

The Ideal gas law or general gas equation emphasizes on the state or behavior of a hypothetical ideal gas. It states that  pressure P times volume V is equal to moles times temperature and the universal gas constant. It is expressed;

[tex]PV = nRT[/tex]

Where;

Hence, Option D) PV =nRT is the correct answer.

The equation that represents pressure-volume-temperature-mole relationship of an ideal gas is PV = nRT

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Answer:

[tex]\boxed{\text{2.00 mol}}[/tex]

Explanation:

We know we will need a balanced chemical equation with masses and molar masses, so, let's gather all the information in one place.

You don't tell us what the reaction is, but we can solve the problem so long as we balance the OH.

M_r:      58.32

          Mg(OH)₂ + … ⟶ … + 2HOH

m/g:       58.3

(a) Moles of Mg(OH)₂

[tex]\text{Moles of Mg(OH)$_{2}$} =\text{58.3 g Mg(OH)$_{2}$} \times \dfrac{\text{1 mol Mg(OH)$_{2}$}}{\text{58.32 g Mg(OH)$_{2}$}}\\\\=\text{0.9997 mol Mg(OH)$_{2}$}[/tex]

(b) Moles of H₂O

The molar ratio is 2 mol H₂O = 1 mol Mg(OH)₂.

[tex]\text{Moles of H$_{2}$O}= \text{0.9995 mol Mg(OH)$_{2}$} \times \dfrac{\text{2 mol {H$_{2}$O}}}{ \text{1 mol Mg(OH)$_{2}$}}\\\\= \textbf{2.00 mol H$_{2}$O}[/tex]

The reaction will form [tex]\boxed{\textbf{2.00 mol}}[/tex] of water.

When 58.3 grams of magnesium hydroxide react, it forms 2 moles of water. This is determined through the conversion of grams to moles and using the stoichiometry of the reaction.

To find out how many moles of water would form the reaction of exactly 58.3 grams of magnesium hydroxide, we need to convert grams of Mg(OH)2 to moles and then use stoichiometry to find out the number of moles of H2O produced.

The molecular weight of Mg(OH)2 is 58.3197 g/mol. Therefore, the number of moles of Mg(OH)2 is given by:

Mass (g) / Molecular weight (g/mol) = 58.3g / 58.3197g/mol = 1 mole Mg(OH)₂

According to the reaction Mg(OH)2 -> Mg²⁺ + 2OH⁻, 1 mole of magnesium hydroxide decomposes to form 1 mole of magnesium ions and 2 moles of hydroxide ions. Therefore, 1 mole of Mg(OH)₂ reacts to form 2 moles of water.

So, 1 mole of Mg(OH)2 would result in the formation of 2 moles of water. Hence, 58.3 grams (which correspond to 1 mole) of Mg(OH)2 would form 2 moles of water.

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Answer:

Much younger than Earth

Explanation:

The moon is believed to be much more younger than the earth.

The moon is earth's only natural satellite.

It is hypothesised that a planetary body as big as Mars collided with earth. The impact causes vapourization and hauling of materials from the earth crust and mantle.

The blasted particles and the matter were pulled together by gravity. These ones formed our satellite, the moon.

Some of the matter fell back to the earth surface.

The moon was formed after earth was formed and it is much younger than our blue planet.

The Moon is about the same age as Earth, approximately 4.5 billion years old, with lunar rock samples dating between 3.3 and 4.4 billion years, indicating a shared origin in the solar system.

The age of the Moon is a subject of geologic interest and has been determined through scientific investigation, particularly through the analysis of lunar rocks retrieved during the Apollo missions. Studies have revealed that the Moon and Earth have approximately the same age, which is in the vicinity of 4.5 billion years old. Radiometric age-dating of the lunar rocks has shown that the samples solidified between about 3.3 and 4.4 billion years ago, which are substantially older than most of the rocks found on Earth.

Therefore, when answering the student's question about the Moon's age, the best choice is 'about the same age as Earth'. While there are lunar rocks that are older than most of Earth's rocks, both Earth and Moon formed together in the same time frame, in the earlier days of the solar system.

Answer:

[H₃O⁺] = 6.31 x 10⁻³ M.

Explanation:

pH = - log[H₃O⁺].

∴ 2.2 = - log[H₃O⁺].

∴ log[H₃O⁺] = - 2.2

∴  [H₃O⁺] = 6.31 x 10⁻³ M.

Water heating on a gas-powered stove involves thermal energy and chemical energy.

Thermal energy is defined as a type of energy which is contained within a system which is responsible for temperature rise.Heat is a type of thermal energy.It is concerned with the first law of thermodynamics.

Thermal energy arises from friction and drag.It includes the internal energy or enthalpy of a body of matter and radiation.It is related to internal energy and heat .It arises when a substance whose molecules or atoms are vibrating faster.

These vibrating molecules and atoms collide and as a result of which heat is generated in a substance , more the collision of particles , higher is the thermal energy.It has 3 forms: 1) conduction 2) convection 3) radiation.

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Answer:

k and br is right answer

The  list of elements given where k and br are two elements that form the ionic compound.

The following information should be considered:

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Exothermic Reactions

Answer:

Reaction B is exothermic

Explanation:

From the context of thermodynamics, chemical reactions can be broadly classified as endothermic and exothermic reactions.

Endothermic reactions involve absorption of energy and show a positive value for the reaction enthalpy i.e. ΔH is positive. In contrast, exothermic reactions are accompanied by the release of energy and show a negative value for the enthalpy change i.e. ΔH is negative.

In a given chemical reaction energy is required to break bonds and it is released during the formation of new bonds.

The Reaction B is such that, the energy required to break bonds is less than energy released during formation bonds. Therefore, since there is a net release of energy, the reaction is exothermic.

Answer:

"CO(g) + 2H2 (g) <---> CH3OH (g) and that the reaction is exothermic (the delta H value is negative). The reaction is exothermic, so lowering the temperature will shift the equilibrium toward the right. Since the reaction uses 3 moles of gas to form 1 mole of gas, increasing the pressure will shift the reaction toward the right. So, low temperature and high pressure will produce the highest yield.

The ionic equation, [tex]Cu_{2}[/tex]+(aq) + Zn(s) → Cu(s) + [tex]Zn_{2}[/tex]+(aq), represents a spontaneous reaction in a voltaic cell where Zinc is oxidized (loses electrons) and Copper is reduced (gains electrons). This occurs because Zinc is more reactive than Copper.

In a voltaic or galvanic cell, oxidation occurs at the anode and reduction occurs at the cathode. The reaction is spontaneous, which means it can occur without any external energy. Considering your given ionic equations, 3. [tex]Cu_{2}[/tex]+(aq) + Zn(s) → Cu(s) + [tex]Zn_{2}[/tex]+(aq) best represents a spontaneous reaction that would occur in a voltaic cell. This is because zinc is more active than copper and donates electrons (becomes oxidized) spontaneously. The zinc becomes zinc ions ([tex]Zn_{2}[/tex]+(aq)) and copper ions ([tex]Cu_{2}[/tex]+(aq)) gain the electrons and reduce to copper (Cu(s)). The redox potential of the [tex]Cu_{2}[/tex]+/Cu redox couple is lower than that of the [tex]Zn_{2}[/tex]+/Zn, making the reaction spontaneous in forward direction.

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(1/2)^3 is the fraction of a sample after 3 half lives

Answer:-

When the reaction takes place Ca is reduced or is an oxidizing agent.

Reaction:

Ca + 2Cl =CaCl2

Note: There is a +2 charge on Ca(Calcium) and -1 charge on each Cl-atom(Chlorine atom) hence the charges are cancelled. Therefore, the total charge on the whole compound is zero.

Explanation:-

• Reduction: gain of electron/electrons

gain of hydrogen

loss of oxygen

Oxidation: gain of oxygen

loss of hydrogen

loss of electron/electrons.

• Oxidizing agent/reduced

Reducing agent/oxidized

• The molecule that is oxidized loses an electron and the molecule that is reduced gains the electron that was lost by the oxidized molecule.

Answer:

[tex]\boxed{\text{Chlorine}}[/tex]

Explanation:

We must use oxidation numbers to decide which substance is reduced.  

[tex]\rm \stackrel{\hbox{0}}{\hbox{Ca}} + \stackrel{\hbox{0}}{\hbox{ Cl}_{2} }\longrightarrow \stackrel{\hbox{+2}}{\hbox{Ca }}\stackrel{\hbox{-1}}{\hbox{Cl}_{2}}[/tex]

The oxidation number of Ca increases from 0 in Ca to +2 in CaCl₂.

The oxidation number of Cl decreases from 0 in Cl₂ to -1 in CaCl₂.

[tex]\text{A decrease in oxidation number is reduction, so } \boxed{\textbf{Cl$_{2}$ is the substance reduced.}}[/tex]

This question is hard but I found the answer from merit nation

Answer:

Explanation:

Elements in the same family belong to the same group.

A group on the periodic table is the vertical arrangement of elements. Elements in the same group have the same amount of valence electrons in their outermost shell. We know that the valency of an element dictates its chemical properties. In group I for example, elements here have just a valence electron, this makes group I elements readily lose their electrons to achieve a noble configuration.

Physical properties to an extent also varies and progresses down the group steadily.

This is why elements in the same family are said to generally have similar properties

Elements in the same family or group on the periodic table generally have similar properties, such as reactivity and the types of compounds they form, because they have the same number of valence electrons. For example, the halogens in Group 17 and the alkali metals in Group 1 have similar properties due to their shared valence electron configurations.

The elements in the same family or group on the periodic table generally have similar properties because they have the same number and distribution of electrons in their valence shells. These valence electrons determine how elements interact with other substances and react chemically. For example, elements in the same family tend to have similar reactivity and form similar types of compounds.

For instance, the halogens (fluorine, chlorine, bromine, iodine, and astatine) are all located in Group 17 of the periodic table and have similar properties because they all have seven valence electrons. They are highly reactive nonmetals that have a tendency to gain one electron to achieve a stable electron configuration.

Another example is the alkali metals (lithium, sodium, potassium, etc.), which are found in Group 1. They all have one valence electron and are highly reactive metals that readily lose this electron to form a +1 cation.

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It is an ester functional group