If a potassium atom has an atomic number of 19 and a mass number of 39, how many protons, electrons, and neutrons are in the atom?

3.5 moles of oxygen are required to produce 2.33 moles of water

Stoichiometry in Chemistry learn about chemicals mainly emphasizes quantitative, such as the calculation of volume, mass, number, which is related to numbers, molecules, elements, etc.

A reaction coefficient is a number in the chemical formula of a substance involved in the reaction equation. The reaction coefficient is useful for equalizing reagents and products.

In the reaction there are also manifestations of reagent substances namely gas (g), liquid (liquid / l), solid (solid / s) and solution (aqueous / aq).

The concentration of a substance can be expressed in several quantities such as moles, percent (%) weight/volume,), molarity, molality, parts per million (ppm) or mole fraction. The concentration shows the amount of solute in a unit of the amount of solvent.

The mole itself is the number of particles contained in a substance amounting to 6.02.10²³

Mole can also be sought if the amount of substance mass and its molar mass is known

[tex]\large{\boxed{\boxed{\bold{mol=\frac{mass}{molar\:mass}}}}[/tex]

Reaction that happens :

C₃H₇SH (l) + 6 O₂ (g) ⇒3 CO₂ (g) + SO₂ (g) + 4 H₂O (g)

And because C₃H₇SH (l) ) is excess reactant, O₂ functions as a limiting reagent, so the determination of H₂O mole based on O₂ mole

From the coefficient of the equation above, it shows that the ratio of mol O₂: mol H₂O = 6: 4

So to produce 2.33 moles of H₂O, O₂ is needed as much as:

mole O₂ = 6/4 x 2.33

mole O₂ = 3,495 = 3.5 mole

The mass of one mole of raindrops

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Keywords: mole, excess, limiting reactants, H₂O

Answer:

to force white christian culture on the native americans

Explanation:

apex

Final answer:

This answer explains how to determine the molecular formula of serotonin based on its mass percent composition and molar mass.

Explanation:

Serotonin is a compound that conducts nerve impulses in the brain. To determine its molecular formula, we need to calculate the empirical formula first. Given the mass percent composition of carbon (C), hydrogen (H), nitrogen (N), and oxygen (O), we can find the empirical formula ratios and then the molecular formula based on the molar mass of serotonin.

Using the given mass percent values, we can calculate that the empirical formula of serotonin is C₁₁H₁₂N₂O . Since the molar mass of serotonin is 176 g/mol, this corresponds to a molecular formula of  C₁₁H₁₂N₂O.

Therefore, the molecular formula of serotonin is C₁₁H₁₂N₂O.

The gas most responsible for the greenhouse effect on Earth is carbon dioxide (CO₂). While methane is more potent molecule for molecule, the abundance of CO₂ makes it a foremost contributor to global warming.

The gas most responsible for the greenhouse effect on Earth is carbon dioxide (CO₂). While the most common greenhouse gases are water vapor (H₂O), carbon dioxide, methane (CH₄), and nitrous oxide (N₂O), carbon dioxide is being added to the atmosphere in significant amounts through human activities. These activities lead to higher concentrations of CO₂, causing more heat to be trapped in the atmosphere and enhancing the natural greenhouse effect, which consequently leads to global climate change.

When comparing carbon dioxide to methane in terms of effectiveness at heating the atmosphere, methane is a more potent greenhouse gas molecule for molecule, but the abundance and longevity of carbon dioxide in the atmosphere make it a major player in the greenhouse effect.

It is important to note that gases like nitrogen (N₂) and oxygen (O₂), despite making up a large part of the atmosphere, do not significantly contribute to the greenhouse effect.

Arranging the given  elements in order of decreasing atomic sizes ;

The arrangement of elements based on Atomic numbers is a periodic trend ( because elements are categorized/ put in different patterns  in the periodic table based on their atomic sizes ).  while

A group trend groups elements in vertical order based on their characteristics and not atomic size.

Hence we can conclude that Arranging the various elements in order of decreasing atomic sizes is ; Sodium > Aluminum > Sulfur > Chlorine

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Final answer:

Molecular orbitals are formed when atomic orbitals overlap, where in-phase combinations create bonding orbitals and out-of-phase combinations create antibonding orbitals, influencing the stability of the molecule.

Explanation:

The formation of molecular orbitals (MOs) occurs when atomic orbitals overlap and combine, which can be visualized through the molecular orbital theory. Bonding molecular orbitals are created by the in-phase combinations of atomic wave functions, leading to an increase in stability of the molecule as electrons in these orbitals help to hold the atoms together. Conversely, antibonding molecular orbitals result from out-of-phase combinations and contain electrons that make the molecule less stable. The interaction between atomic orbitals is most significant when they are of similar energy.

For instance, molecular orbitals can form from the overlap of two s atomic orbitals from adjacent atoms. An in-phase overlap leads to a lower energy bonding orbital (σ MO), while an out-of-phase overlap results in a higher energy antibonding orbital (σ* MO). When considering molecules with more than two atoms, such as water (H2O), molecular orbital theory provides a more accurate model compared to other theories, explaining the actual bond angles and electron distribution that can be observed experimentally.

Answer:

3.35 g Na2C2O4

Explanation:

They gave us the molarity and the liters of solution so using the relationship (M=mol/V) we can get the moles of solution.

0.250 L (0.100 mol/L) = 0.0250 mol Na2C2O4

Now that we have the moles of sodium oxalate, we can use its molar mass (134 g/mol) to convert to grams.

0.0250 mol (134.0 g/mol) -=3.35 grams (rounded to three sig figs

Approximately 3.35 grams of sodium oxalate (Na2C2O4) are needed to prepare 0.250 L of a 0.100 M solution.

The mass of sodium oxalate (Na2C2O4) needed to prepare a 0.100 M (mol/L) solution in a volume of 0.250 L, we can use the formula:

Mass = molar concentration × molar mass × volume

First, we need to calculate the number of moles of sodium oxalate required:

Number of moles = molar concentration × volume

Number of moles = 0.100 mol/L × 0.250 L

Number of moles = 0.025 mol

The molar mass of sodium oxalate (Na2C2O4) can be calculated as follows:

Molar mass = (2 × atomic mass of sodium) + (2 × atomic mass of carbon) + (4 × atomic mass of oxygen)

Molar mass = (2 × 22.99 g/mol) + (2 × 12.01 g/mol) + (4 × 16.00 g/mol)

Molar mass = 134.03 g/mol

Finally, we can calculate the mass of sodium oxalate needed:

Mass = number of moles × molar mass

Mass = 0.025 mol × 134.03 g/mol

Mass = 3.35 g

Therefore, approximately 3.35 grams of sodium oxalate (Na2C2O4) are needed to prepare 0.250 L of a 0.100 M solution.

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Iron(III) sulfide reacts with oxygen to produce iron(III) oxide and sulfur dioxide. The reaction can be represented by this balanced chemical equation: 4 Fe2S3(s) + 11 O2(g) -> 2 Fe2O3(s) + 12 SO2(g). This is an example of a combination reaction; a type of redox reaction.

The reaction of solid iron(III) sulfide (Fe2S3) with oxygen gas (O2) produces solid iron(III) oxide (Fe2O3) and sulfur dioxide gas (SO2). The chemical equation representing this reaction is:

4 Fe2S3(s) + 11 O2(g) -> 2 Fe2O3(s) + 12 SO2(g)

In this equation, (s) represents solid, (g) represents gas, and the numbers in front of the chemical formulas are coefficients indicating the number of moles of each substance involved in the reaction. This reaction is an example of a combination reaction, which is a type of oxidation-reduction (or redox) reaction where a substance reacts with oxygen to form oxides.

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Answer:

fluorine (F), chlorine (Cl), bromine (Br), iodine (I), astatine (As), and tennessine (Ts)

Explanation:

The combustion reaction of octane with oxygen forms carbon dioxide and water vapor. The chemical equation is represented as: 2C8H18(l) + 25O2(g) ➖ 16CO2(g) + 18H2O(g). Each compound's state of matter is indicated in parentheses.

The chemical equation for the reaction of liquid octane (C8H18) with oxygen gas (O2) to form carbon dioxide gas (CO2) and water vapor (H2O) is as follows:

2C8H18(l) + 25O2(g) ➖ 16CO2(g) + 18H2O(g)

In this equation, the phases of each compound are indicated in parentheses. C8H18 is in the liquid phase (l), while O2, CO2, and H2O are all in the gaseous phase (g).

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The balanced equation is C₈H₁₈ (l) + 12.5 O₂ (g) → 8 CO₂ (g) + 9 H₂O (g). This reaction exemplifies a combustion reaction.

Liquid octane reacts with oxygen gas to form carbon dioxide gas and water vapor. The balanced chemical equation for this reaction, with phases identified, is:

C₈H₁₈ (l) + 12.5 O₂ (g) → 8 CO₂ (g) + 9 H₂O (g)

This reaction is a typical example of a combustion reaction, where a hydrocarbon reacts with oxygen to produce carbon dioxide and water, releasing energy.

The amino group has the chemical formula -NH₂.

It consists of a nitrogen atom that is bonded to two hydrogen atoms, and to the carbon skeleton of a molecule. This functional group is a key component of amino acids, which are the building blocks of proteins.

The general structure of an amino acid can be represented as R-CH(NH₂)-COOH. Different amino acids vary in their R group, which determines their unique properties. In biochemistry, the amino acids with an amino group and a carboxyl group attached to the same carbon atom are referred to as alpha-amino acids.

In any balanced chemical equation, the number of each type of atom on both sides of the equation is equal.

BALANCED CHEMICAL EQUATION:

For example, in the equation as follows:

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Answer: The simplest formula for monosaccharides is [tex](CH_2O)_6;n=6[/tex]

Explanation:

Monosaccharides are defined as the sugars that are present in the simplest forms or which cannot be further hydrolyzed. They are the the basic units os sugar.

This class of sugars consist of carbon atoms, hydrogen atoms and oxygen atoms.

The general formula for a monosaccharide is [tex](CH_2O)_n;n\geq 3[/tex]

We are given a sugar having chemical formula [tex]C_6H_{12}O_6[/tex]

So, the simplest form of the given sugar will be [tex](CH_2O)_6;n=6[/tex]

To determine the number of oxygen atoms in the given compound, barium nitrate Ba(NO3)2, we can see that in each mole of barium nitrate, there are 6 moles of oxygen atoms in it. In this problem, the correct answer is D.

6 moles of oxygen.

Explanation:

Ba(NO3)2 ,is a composite called 'barium nitrate.' It's also described as 'barium dinitrate.' Ba(NO3)2 is created up of atoms of barium (Ba), nitrogen (N) and oxygen (O). Barium nitrate is the inorganic compound with the chemical equation Ba(NO3)2. It, like most barium salts, is transparent, toxic, and water-soluble. It fires with a green flame and is an oxidizer, it is practiced in pyrotechnics.

Answer:

upper right of the periodic table