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Atomic weight of metal : 24

Proust states the Comparative Law that compounds are formed from elements with the same Mass Comparison so that compounds have a fixed composition of elements

Divalent metal oxide=XO

MW O = 16

MW XO₂ =  X+16

\(\tt \%mass=\dfrac{Ar~X}{X+16}\times 100\%\\\\0.6=\dfrac{X}{X+16}\\\\0.6(X+16)=X\\\\0.6X+9.6=X\\\\0.4X=9.6\rightarrow X=24\)

Answer:

Explanation:

The temperatures 110 and 145 are possible

When two items with different temperatures come in contact with one another, energy moves from the hotter (higher temperature) object to the cooler (lower temperature) object until both objects reach the same temperature.

A point of balance is eventually reached. When this occurs, the temperature of the atoms in both objects is the same since they are moving with the same speed as shown.

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Answer:your answer is 0.95

Explanation:

Because you put the number down if it is in the hundreds then put into a decimal that it is in the hundredths:)

The answer is: The overall charge of the electron cloud is negative,

Electron: Electron is a sub-atomic particle which is found outside the nucleus of an atom. The charge carried by an electron is negative.

What is the electron cloud and who suggest this idea?

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The balanced chemical equation is one that represents the same number of atoms on both the reactant and product sides of the reaction. The coefficients provide the ratios of the substances that react and form in the reaction.

The procedure for balancing a chemical equation is as follows:

Step 1: Write the unbalanced chemical equation for the reaction.

Step 2: Determine the number of atoms of each type present on the reactant and product sides of the chemical equation.

Step 3: To achieve an equal number of atoms of each element on the left and right sides of the equation, introduce coefficients.

Step 4: Verify that the chemical equation is balanced by counting the atoms of each element on each side of the equation.

Examples of balanced chemical equations are:4Fe + 3O2 → 2Fe2O3C2H2 + 3O2 → 2CO2 + H2O2Na + Cl2 → 2NaCl.

Therefore, the correct answers are 4Fe + 3O2 → 2Fe2O3, C2H2 + 3O2 → 2CO2 + H2O, and 2Na + Cl2 → 2NaCl.

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Answer:

D: False

E: Ethane

Explanation:

Answer:

1.37cm

Explanation:

It's less than 1.4cm but more than 1.3cm. It's also more than 1.35cm so I guess the best answer would be 1.37cm or round up to 1.4cm

We need to comprehend the idea of molarity in order to respond to this query. The moles of solute per litre of solution is measured as molarity. In this instance, we are aware that a 100g solution contains 14g of dissolved solute.

Using the solute's molecular weight, which is equal to the mass of one mole of the material, we may convert this to moles. Let's say that the solute in this instance has a molecular weight of 200g. The moles of solute in the solution may then be determined by dividing 14 grammes by 200 grammes, which yields 0.07 moles.

The following equation may then be used to determine how much water is required to create the solution: Molarity is defined as moles of solute per litre of solution. . Therefore, the amount of water required to create the solution is 7 litres when we multiply 0.07 moles by the number of litres of solution. In conclusion, 7 litres of water are required to create a 100g solution containing 14g of solute.

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Specific gravity is the "heaviness" of a mineral. It is defined as a number that expresses the ratio between the weight of a mineral and the weight of an equal volume of water.

Answer:

The ratio of it's mass of an equal volume of water.

Explanation:

According to the kinetic energy theory, collisions between molecules in a gas called elastic collision.

According to the kinetic theory of gases, collisions between molecules in a gas are called elastic collisions. In an elastic collision, the total kinetic energy of the colliding molecules is conserved. This means that the total energy of the system before and after the collision is the same. However, the kinetic energy may be redistributed between the colliding molecules, which can result in a change in their velocities and directions of motion.

Elastic collisions are an important concept in the kinetic theory of gases because they help to explain the macroscopic properties of gases, such as pressure, temperature, and volume, in terms of the behavior of their constituent molecules. For example, when gas molecules collide with the walls of a container, they exert a force that contributes to the pressure of the gas. The rate and frequency of these collisions are affected by the temperature and volume of the gas. The kinetic theory of gases provides a theoretical framework for understanding the relationship between these macroscopic properties and the microscopic behavior of gas molecules.

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Answer:

Rubidium (Rb).

Explanation:

From the question given above, the following data were obtained:

Electronic configuration => 1s²2s²2p⁶3s²3p⁶4s²3d¹⁰4p⁶5s¹

Name of element =?

To know the name of the element with the above electronic configuration, we shall determine the atomic number of the element. This can be obtained as follow:

Number of electrons = 2 + 2 + 6 + 2 + 6 + 2 + 10 + 6 + 1

Number of electrons = 37

Next, we shall determine the number of protons. This can be obtained as follow:

From the question given above, the element has no charge. Hence the element contains equal numbers of protons and electrons.

Number of electrons = 37

Number of protons = number of electrons = 37

Next, we shall determine the atomic number. This can be obtained as follow:

The atomic number of an element is simply defined as the number of protons present in the atom of the element. Thus,

Atomic number = proton number

Proton is = 37

Therefore,

Atomic number = 37

Finally, we shall determine the name of the element by comparing the atomic number of those in the periodic table.

Thus, the element with the above electronic configuration is Rubidium (Rb) since no two elements have the same atomic number

Answer:

Ammonia

Explanation:

I believe that ammonia is the correct answer to this question.

In the following redox reaction, Fe (Iron) is being oxidized, while Cl₂ (Chlorine Gas) is being reduced. Oxidation is defined as the loss of electrons, while reduction is the gain of electrons.

Here, correct answer will be

In this reaction, the Fe is losing two electrons to the Cl₂, which is gaining two electrons. Therefore, the Fe is being oxidized, while the Cl₂ is being reduced.

It is important to note that the oxidation state of a compound can change without the compound itself changing. In this reaction, the oxidation states of the two compounds are changing, even though the compounds themselves are not.

The oxidation state of the Fe is increasing from 0 to +2, while the oxidation state of the Cl₂ is decreasing from 0 to -2. This is what makes this reaction a redox reaction.

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complete question is :-

If the following redox reaction occurred, which compound would be oxidized and Reduced?

2FeCl₃(s) → 2Fe(s) + 3Cl₂(g)

Answer:

it can result in an increasing risk of the accumulation of decomposition products, self-heating (from the heat released by the slow decomposition reactions)

Magnesium can result in an increased risk of the accumulation of decomposition products, self-heating (from the heat released by the slow decomposition reactions)

Ammonium nitrate is used commonly in fertilizers; in pyrotechniques, herbicides, and insecticides; and in the manufacture of nitrous oxide.

When ammonium nitrate is heated, it decomposes exothermically into nitrous oxide and water.

Hence, Magnesium can result in an increased risk of the accumulation of decomposition products, self-heating (from the heat released by the slow decomposition reactions)

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The endpoint and equivalence point are two significant phases that are attained throughout the procedure.

The chemical equivalent between the added titrant and the sample analyte is referred to as the point of equivalence in a titration. Endpoint, on the other hand, is the location where the color of the solution changes. The equivalence point, or the ideal point for the termination of the titration, occurs when the moles of a standard solution (the titrant) equal the moles of a solution of unknown concentration (the analyte). At the titration's equivalence point, just enough titrant is given to totally neutralize the analyte solution.

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When a diprotic acid is titrated with a strong base, and the Ka1 and Ka2 are significantly different, then the pH vs. volume plot of the titration will have: two distinct equivalence points. The answer is C.

There are two distinct steps in the titration curve, the first equivalence point is the point at which the base has reacted with all of the H+ ions from the first acidic hydrogen, while the second equivalence point is the point at which the base has reacted with all of the H+ ions from the second acidic hydrogen.

The pH at the first equivalence point will be less than 7, and the pH at the second equivalence point will be greater than 7, indicating that the solution is acidic for the first equivalence point and basis for the second equivalence point.

The Ka1 and Ka2 values for diprotic acids are typically different because the first hydrogen ion is more strongly bound to the molecule than the second hydrogen ion, resulting in different dissociation constants for each hydrogen ion.

Therefore, the pH vs. volume plot of the titration of a diprotic acid with a strong base will have two distinct equivalence points if Ka1 and Ka2 are significantly different.

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Cl2 + 2NaBr 2NaCl + Br2 was the equation that is suitable for oxidizing agent.

what is an oxidizing agent ?

An oxidising agent (also known as an oxidant, oxidizer, electron recipient, or electron acceptor) is a substance that obtains or "accepts"/"receives" an electron from a reducing agent in a redox chemical process (called the reductant, reducer, or electron donor). An oxidizer, in other terms, is any substance that oxidises another material. The oxidizer's oxidation state, which specifies the degree of electron loss, falls while the reductant's oxidation state increases; this is described by stating that oxidizers "undergo reduction" and "are reduced," whereas reducers "undergo oxidation" and "are oxidised." Oxygen, hydrogen peroxide, and halogens are common oxidising agents.

An oxidising agent is a chemical species that conducts a chemical reaction in which one or more electrons are gained.

Cl2 + 2NaBr 2NaCl + Br2 was the equation.

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Answer:

C

Explanation:

When the atoms were cooked they became a solid, or kept being a liquid so the shape of the element would of not changed.

Answer:

There are various types of proteins with a number of different functions they perform. These functions can include:

Hope this helps!

Answer:

provide structure

transport substances

fight diseases

regulate cell processes

send messages

create movement

Explanation:

'cause i did it edge 2020

Answer:You didn't provide examples

Explanation: Groundwater can cause erosion under the surface as it moves through the soil. During the movement an acid is formed which what causes erosion and deposition.

Hope that helps

The compound dibromobis(ethylenediamine)cobalt(III) sulfate, there are 3 individual ions per formula unit: one cobalt(III) complex ion [Co(en)2Br2]+3, one sulfate ion (SO4)^2-, and three water molecules as each formula unit contains three waters of hydration.

For Dibromobis(ethylcuediamine)cobalt(III) sulfate, the number of individual ions per formula unit and the coordination number of the metal ion are: - Number of individual ions per formula unit: There are a total of 6 ions per formula unit.

The compound has the following formula: [Co(ethylenediamine)2Br2]SO4. This means that there are two ethylenediamine ligands, each contributing 2 nitrogen atoms for a total of 4 nitrogen atoms.

Each nitrogen atom has a lone pair of electrons that can coordinate with the cobalt ion. There are also 2 bromide ions and 1 sulfate ion in the formula.

So, the total number of individual ions per formula unit is 4 nitrogen atoms + 2 bromide ions + 1 sulfate ion = 6 ions. - Coordination number of the metal ion: The metal ion in this compound is cobalt(III). Cobalt(III) has a coordination number of 6, which means that it can coordinate with 6 ligands. In this compound, there are 2 ethylenediamine ligands, each contributing 2 nitrogen atoms for a total of 4 nitrogen atoms.

The coordination number of the metal ion (cobalt) in this compound is 6, as there are two ethylenediamine (en) ligands, each with two nitrogen atoms coordinating to cobalt, and two bromine atoms also coordinating to cobalt (2x2 + 2 = 6).

The 4 nitrogen atoms coordinate with the cobalt ion, leaving 2 open coordination sites. These sites are occupied by the 2 bromide ions, giving a coordination number of 6 for the cobalt ion.

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Answer:

hi, friend!

there are five common types of clay, namely; kaolin, stoneware, ball clay, fireclay and earthenware

Explanation:

A diene with a melting point of 100°C would likely be suitable for a solvent-free Diels-Alder reaction.

The melting point of the diene itself is only one aspect to consider. In a solvent-free methodology, the reactants are typically heated to a high temperature to drive the reaction to completion. The high temperature helps to overcome any activation energy barriers and promotes the reaction between the reactants. In this case, a diene with a melting point of 100°C would likely be suitable for a solvent-free Diels-Alder reaction if it is also able to form a reactive intermediate with the appropriate geometry and stereochemistry for the reaction to occur. However, without further information about the specific reactants and conditions used, it is not possible to predict the outcome of the reaction with certainty.

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Answer:

41.88375 g Fe

Explanation:

Using stoichiometry, we can do this problem. First, we put our given. Then we create an equation using the molar mass of Fe (found on the periodic table, which was 55.845 g Fe), and the resulting equation is:

\(0.75 mol Fe * \frac{55.845 g Fe}{1 mol Fe}\)

The mol Fe's cancel, and leave us with:

41.88375 g Fe

Good luck.

The grams of magnesium hydroxide will precipitate if the 25 mL of 0.235 M magnesium nitrate are combined with the 30. 0 mL of 0.260 M potassium hydroxide is 0.227 g.

The reaction is given as :

Mg(NO₃)₂   +   2KOH  ---->  2KNO₃(aq)  +  Mg(OH)₂(s)

moles of Mg(NO₃)₂   = 0.235 × 0.025

                                  = 0.00587 mol

moles of KOH = 0.260 × 0.030

                        =  0.0078 mol

1 mole of Mg(NO₃)₂   react with 2 mole of KOH

mole of KOH = 0.0078 × 2

                      = 0.0156 mol

KOH is the limiting reagent.

2 mole of KOH  produces 1 mole of Mg(OH)₂

mole of Mg(OH)₂ =  0.0078 / 2 = 0.0039 mol

mass of Mg(OH)₂ = 0.0039 × 58.3

                             = 0.227 g

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Only KCN will have a pH lower than 7.00. KCN is a strong base, and it will react with water to form hydroxide ions, which will lower the pH of the solution.

CH₃NH₃ is a weak base, and it will not react with water to a significant extent. Al(NO₃)₃ is a salt, and it will not react with water to change the pH of the solution.

Here is a more detailed explanation:

KCN is a strong base. Strong bases dissociate completely in water to form hydroxide ions. The equation for the dissociation of KCN is:

KCN(aq) + H₂O(l) <=> CN⁻(aq) + H₃O⁺(aq)

The equilibrium constant for this reaction is very large, so the majority of the KCN molecules will dissociate in water to form hydroxide ions. This will lower the pH of the solution.

CH₃NH₃ is a weak base. Weak bases only partially dissociate in water to form hydroxide ions. The equation for the dissociation of CH₃NH₃ is:

CH₃NH₃(aq) + H2O(l) <=> CH₃NH₂(aq) + H₃O⁺(aq)

The equilibrium constant for this reaction is much smaller than the equilibrium constant for the dissociation of KCN, so only a small fraction of the CH₃NH₃ molecules will dissociate in water to form hydroxide ions. This will have a negligible effect on the pH of the solution.

Al(NO₃)₃ is a salt. Salts do not react with water to change the pH of the solution. The reason for this is that the ions in a salt are already fully dissociated in water.

For example, the ions in Al(NO₃)₃ are Al³⁺ and NO³⁻. Both of these ions are neutral, so they will not react with water to produce any acidic or basic products.

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