Writing Names and Formulas for Molecular Compounds Write the names of the following compounds using the instructions on page 4-5. 1. C 2
​
Br 4
​
2. I 4
​
O 9
​
3. Si 3
​
N 4
​
4. NCl 3
​
5. P 4
​
S 7
​
6. S 2
​
F 10
​
7. N 2
​
O 5
​
8. BrCl Bromine chloride 9. S 4
​
N 2
​
Br 3
​
O 8
​

Consequently, it is vital to ensure that the test tube is properly closed when heating the salt solution.

A loss of water by evaporation from a salt solution that is heated with a test tube not closed would affect the initial calculation of the solubility of the salt by reducing the amount of solvent in the solution. This may increase the salt concentration and cause the calculated solubility of the salt to be higher than the actual solubility of the salt. In short, if water is lost due to evaporation, the initial calculation of the solubility of salt will be wrong and inaccurate.

Loss of water by evaporation may only affect the solubility of salt at the initial temperature. This is because the saturation temperature is the point at which no more salt can be dissolved in the solution due to the temperature of the solution and the concentration of the solute in it. Therefore, once the solution reaches saturation temperature, the solubility of the salt does not depend on the initial temperature.

The evaporation of water from the salt solution will decrease the amount of water in the solution, increasing the concentration of the salt. In this scenario, the concentration of the salt is calculated by dividing the mass of the salt by the mass of the solvent. If the loss of water due to evaporation is not taken into account, the amount of solvent will be less than the actual amount of solvent. As a result, the concentration of the salt will appear to be higher than it is in reality.

to know more about evaporation visit:

https://brainly.com/question/30589597

#SPJ11

If thе initial concеntration of a substancе is 1mM and is absеnt, thеn thе еquilibrium concеntration would bе 0mM.

In chеmistry, еquilibrium rеfеrs to thе statе in which thе forward and rеvеrsе rеactions of a chеmical systеm occur at thе samе ratе. Whеn a chеmical systеm is at еquilibrium, thе concеntrations of all of thе rеactants and products arе constant ovеr timе.

Thе еquilibrium constant (K) is a mеasurе of thе еquilibrium bеtwееn thе forward and rеvеrsе rеactions. It is dеfinеd as thе ratio of thе concеntrations of thе products to thе concеntrations of thе rеactants at еquilibrium. Therefore, if thе initial concеntration of a substancе is 1mM and is absеnt, thеn thе еquilibrium concеntration would bе 0mM.

Read more about initial concеntration on:

brainly.com/question/30769790

#SPJ4

The balanced chemical reaction equation of 2SO3(g)↽−−⇀2SO2(g)+O2(g) is given, where at a certain temperature, 0.680 mol of SO3 is placed in a 5.00 L container. Therefore, the value of Kc is 0.45.

At equilibrium, 0.0200 M O2 is present. We are required to calculate the value of Kc.

Step 1

The balanced chemical reaction equation of 2SO3(g)↽−−⇀2SO2(g)+O2(g) implies that two moles of SO3 give two moles of SO2 and one mole of O2.

We need to calculate the moles of SO3 initially and at equilibrium.

Moles of SO3 initially = 0.680 mol

SO3 is placed in a 5.00 L container.

Therefore, the initial concentration of SO3 is given by;

Initial concentration of SO3 = Number of moles of SO3 / Volume of container

= 0.680 mol / 5.00 L

= 0.136 M

We assume that the change in the concentration of SO3 = -x M.

The concentration of SO3 at equilibrium = (0.136 - x) M

Step 2

The concentration of O2 present at equilibrium is given by;O2 = 0.0200 M

Step 3

As per the chemical equation of the reaction, the concentration of SO2 is 2x M and that of O2 is x M at equilibrium.

Therefore, Kc = ( [SO2]2 [O2] ) / [SO3]2

Kc = [ (2x)2 × x ] / ( [0.136 - x]2)

As per the Law of Mass Action, Kc is constant at a particular temperature.

Kc = 2.2 × 10-2 / 4.89 × 10-2

Kc = 0.45

to know more about equilibrium visit:

https://brainly.com/question/30694482

#SPJ11

A balanced chemical equation is a representation of a chemical reaction that shows the relative number of molecules or moles of each reactant and the product involved. The rate of disappearance of [tex]NH_4+[/tex]is equal to the rate of disappearance of [tex]NO_2-[/tex].

In a balanced chemical equation, the reactants are written on the left side of the equation, separated by plus signs (+), and the products are written on the right side. The reactants are the substances that undergo the chemical change, while the products are the new substances formed as a result of the reaction.

The equation is balanced by adjusting the coefficients in front of each reactant and product so that the number of atoms of each element is the same on both sides. This ensures that the total mass and the total number of atoms are conserved in the reaction.

In the balanced chemical equation for the reaction:

[tex]NH_4+(aq) + NO_2-(aq) = N_2(g) + 2H_2O(l)[/tex]

The stoichiometry tells us that for every 1 mole of [tex]NH_4+[/tex] consumed, 1 mole of [tex]NO_2-[/tex] is also consumed. Therefore, the rate of disappearance of [tex]NH_4+[/tex]is equal to the rate of disappearance of [tex]NO_2-[/tex].

If the rate of [tex]NH_4+[/tex]disappearance is given as 0.782 m/s, then the rate of [tex]NO_2-[/tex] disappearance is also 0.782 m/s. The rate of disappearance for both is the same because they have a 1:1 stoichiometric relationship in the balanced equation.

For more details regarding balanced chemical equations, visit:

https://brainly.com/question/14072552

#SPJ4

For resistors using the four-band code, the values for gold and silver as fractional decimal multipliers in the third band are as follows:

Gold: The fractional decimal multiplier for gold is 0.1. This means that if the third band of a resistor is gold, the resistor's value will be multiplied by 0.1. Silver: The fractional decimal multiplier for silver is 0.01. Therefore, if the third band of a resistor is silver, the resistor's value will be multiplied by 0.01.

This means that if the third band of a resistor is gold, the resistor's value will be multiplied by 0.1. The fractional decimal multiplier for silver is 0.01. Therefore, if the third band of a resistor is silver, the resistor's value will be multiplied by 0.01. In summary, for resistors using the four-band code, the fractional decimal multipliers for gold and silver in the third band are 0.1 and 0.01, respectively.

To know more about resistors visit:

https://brainly.com/question/30672175

#SPJ11

The most common element on Planet Earth is: oxygen.
Most of the mass of the atmosphere on Earth is nitrogen.

Oxygen is the most abundant element by mass on Earth. It makes up a significant portion of the Earth's crust, primarily in the form of oxides, such as silicon dioxide (silica) and aluminum oxide. Oxygen also comprises a major part of Earth's atmosphere, where it exists as diatomic oxygen molecules (O2). It plays a crucial role in supporting life and various chemical processes.

Regarding the mass of the Earth's atmosphere, the most abundant gas is nitrogen, not oxygen. Nitrogen makes up approximately 78% of the Earth's atmosphere by volume. Oxygen is the second most abundant gas, accounting for around 21%. Other gases like argon, carbon dioxide, and trace amounts of other gases make up the remaining composition.


To know more about aluminum oxide, click here, https://brainly.com/question/5395025

#SPJ11

Set 2 has the largest range of 0.07 g/mL, indicating the least precision among the given sets of experimental data for the density of iron.

Density is a measure of how much mass is contained within a given volume. It is commonly defined as mass per unit volume. In other words, density tells us how tightly packed the particles or molecules of a substance are.

To determine which set of experimental data for the density of iron is the least precise, we need to examine the range of values within each set. The smaller the range, the more precise the measurements are.

Let's compare the ranges for each set of data:

Range = 5.44 g/mL - 5.43 g/mL = 0.01 g/mL

Range = 7.98 g/mL - 7.91 g/mL = 0.07 g/mL

Range = 7.65 g/mL - 7.64 g/mL = 0.01 g/mL

Range = 7.06 g/mL - 7.03 g/mL = 0.03 g/mL

Comparing the ranges, we can see that Set 2 has the largest range of 0.07 g/mL, indicating the least precision among the given sets of experimental data for the density of iron.

Learn more on density here https://brainly.com/question/26364788

#SPJ4

Question:

The accepted value for the density of iron is 7.9 g/mL. Which of the following sets of experimental data for the density of iron is the least precise? O 5.43 g/ml and 5.44 g/ml 7.98 g/mL and 7.91 g/ml 7.65 g/mL and 7.64 g/mL 07.06 g/mL and 7.03 g/ml

A mole of M&Ms will occupy approximately 3.82992x10¹⁷ cubic meters of volume.

The volume of one M&M is given as 6.36x10⁻⁷ m³. To find the volume occupied by a mole of M&Ms, we need to know the Avogadro's number, which is approximately 6.022x10²³ mol⁻¹.

The number of M&Ms in a mole can be calculated using Avogadro's number. Therefore, one mole of M&Ms will contain 6.022x10²³ M&Ms.

To find the total volume occupied by a mole of M&Ms, we can multiply the volume of one M&M by the number of M&Ms in a mole.

(6.36x10⁻⁷ m³) * (6.022x10²³ M&Ms) = 3.82992x10¹⁷ m³

Therefore, a mole of M&Ms will occupy approximately 3.82992x10¹⁷ cubic meters of volume.

To know more about volume visit-

https://brainly.com/question/28058531

#SPJ11

The chemical equation of an aqueous suspension of a compound reacting to the addition of a strong base is given below:

Aqueous suspension of the compound + strong base → Balanced chemical equation of the compound + water + anion.

The hydroxide (OH−) ion, a strong base, will add to the compound and form the anion.

The equation would be balanced by making sure that the quantity of each element on both sides of the equation is the same. For instance, consider the chemical equation for NaCl reacting with OH− to form NaOH and Cl−:NaCl + OH− → NaOH + Cl−.

The above chemical equation is balanced because the same number of sodium (Na), chlorine (Cl), hydrogen (H), and oxygen (O) atoms appear on both sides of the equation.

To know more about chemical equation visit;

https://brainly.com/question/28792948

#SPJ11

Hydrosulfuric acid: It is a weak acid, and in aqueous solution, it should be written as H2S(aq).

Carbonic acid: It is a weak acid, and in aqueous solution, it should be written as H2CO3(aq).

Phosphoric acid: It is a weak acid, and in aqueous solution, it should be written as H3PO4(aq).

Here are the classifications of the given acids as strong acid or weak acid:

Hydrochloric acid: It is a strong acid, and in aqueous solution, it should be written as HCl(aq).

Hydrobromic acid: It is a strong acid, and in aqueous solution, it should be written as HBr(aq).

Nitric acid: It is a strong acid, and in aqueous solution, it should be written as HNO3(aq).

Hydrosulfuric acid: It is a weak acid, and in aqueous solution, it should be written as H2S(aq).

Carbonic acid: It is a weak acid, and in aqueous solution, it should be written as H2CO3(aq).

Phosphoric acid: It is a weak acid, and in aqueous solution, it should be written as H3PO4(aq).

To know more about aqueous visit:

https://brainly.com/question/30215562

#SPJ11

The mass of pure aspirin that the student actually synthesized is 65.19 grams (approximately).

The theoretical yield is usually the maximum mass of product that could be generated from a given amount of reactant.

In a synthesis reaction of aspirin, the student generated a percent yield of 78.8%. The purity of the aspirin generated was tested and found to be 82.5%. Find the mass of pure aspirin that was generated.

The percent yield of aspirin

= 78.8%Purity of the aspirin generated

= 82.5%Let's consider that the theoretical yield of aspirin is 100 grams.

78.8% yield implies that the actual yield was 78.8 grams (78.8% of the theoretical yield).82.5% purity implies that 82.5% of the actual yield was pure aspirin (with the remaining being impurities).

Therefore, the mass of pure aspirin synthesized

= (82.5 / 100) x 78.8 grams

= 65.19 grams (Approximately).

The mass of pure aspirin that the student actually synthesized is 65.19 grams (approximately).

The theoretical yield is usually the maximum mass of product that could be generated from a given amount of reactant.

To know more about theoretical visit:

https://brainly.com/question/30604977

#SPJ11

The correct option is c. separates to form Na+ and Cl− ions that interact with water molecules.Table salt is composed of two ions; Sodium (Na+) and Chlorine (Cl−) that have an electrostatic attraction.

NaCl is neutral because of the balance between the positive and negative charges. However, when table salt is dissolved in water, the ions dissociate because the ions become hydrated (surrounded by water molecules), meaning the balance between positive and negative charges is broken down. The positively charged ions Na+ and the negatively charged ions Cl- become surrounded by water molecules which results in ions interacting with water molecules and dissociating (separating) from NaCl.

In brief, when table salt is dissolved in water, it separates to form Na+ and Cl− ions that interact with water molecules. These hydrated ions conduct electricity, meaning that solutions of table salt are excellent conductors of electricity.

To know more about Table salt visit:-

https://brainly.com/question/29021132

#SPJ11

Smooth endoplasmic reticulum are the structure responsible for the synthesis of fatty acids and steroids, detoxification and inactivation of drugs and potentially harmful substances.

Vertebrate liver cells include smooth endoplasmic reticulum, which aids in the detoxification of medicines and toxins. It has enzymes that can convert medications and metabolic waste products from lipid-soluble to water-soluble forms, allowing for simple removal from the body.

Due to the presence of an organelle known as SER, liver cells in the human body detoxify medications and other toxins. Steroid production also involves SER.

Important tasks carried out by peroxisomes include lipid metabolism and toxic detoxification. Additionally, they participate in oxidation processes that degrade fatty acids and amino acids.

To know about endoplasmic reticulum

https://brainly.com/question/32459119

#SPJ4

The list that contains only compounds shared between the glyoxylate and Krebs cycles is oxaloacetate and acetyl-CoA.

The glyoxylate cycle is an alternative metabolic pathway that allows plants, bacteria, and fungi to generate carbohydrates from fat. This cycle is not found in mammals. It is also known as the glyoxylate shunt or the cycle of glyoxylate. The cycle is named after one of its intermediate products, glyoxylate. It is a metabolic pathway that operates in the cytoplasm of plants.

The Krebs cycle is the third stage of cellular respiration, following glycolysis and the link reaction. This cycle is also known as the citric acid cycle or the tricarboxylic acid cycle. This cycle occurs in the mitochondrial matrix of eukaryotic cells, and it's where the pyruvate from glycolysis enters to be oxidized into carbon dioxide. In prokaryotic cells, this cycle takes place in the cytoplasm.

The Krebs cycle is critical since it produces ATP from the oxidation of acetyl-CoA generated by the link reaction. The list of compounds shared between the glyoxylate and Krebs cycles are as follows: Acetyl-CoA Oxaloacetate.

Therefore, the list that contains only compounds shared between the glyoxylate and Krebs cycles is oxaloacetate and acetyl-CoA.

Know more about glyoxylate cycle:

https://brainly.com/question/32353237

#SPJ4

The actual number of multiplications may vary depending on the specific code of the `exp_rec` function

To calculate the number of multiplications made by the `exp_rec` function to calculate `exp_rec(2, 64)`, we need to examine the function's implementation. However, since you haven't provided the specific code for the `exp_rec` function, I cannot determine the exact number of multiplications.

Nevertheless, assuming the `exp_rec` function is a typical recursive function to calculate exponentiation, and it uses the "exponentiation by squaring" algorithm, we can make an estimation based on the general approach.

The "exponentiation by squaring" algorithm reduces the number of multiplications required for exponentiation by exploiting the properties of even and odd exponents. In this algorithm, the number of multiplications required is proportional to the number of bits in the exponent.

For example, if we have `exp_rec(base, 64)` and assume the `exp_rec` function uses the "exponentiation by squaring" algorithm, the number of multiplications required will be on the order of log₂(64) = 6. Since the exponent is 64, which can be represented in 6 bits (100000 in binary), we would expect around 6 multiplications.

However, it's important to note that this estimation assumes a specific algorithm and implementation. The actual number of multiplications may vary depending on the specific code of the `exp_rec` function you're referring to. If you can provide the code for the `exp_rec` function, I can provide a more accurate calculation of the number of multiplications.

To learn more about specific ,

https://brainly.com/question/29792498

#SPJ4

The pH during the titration after the specified additions of acid are: (a) 1.2, (b) 1.4, and (c) 1.6.

To calculate the pH during the titration of 30.00 ml of 0.1000 M KOH with 0.1000 M HBr solution after the specified additions of acid, we need to determine the moles of acid and base, and then calculate the resulting concentration of the conjugate acid or base.

(a) After adding 9.00 ml of HBr solution, the total volume becomes 39.00 ml. To find the moles of HBr added, we multiply its concentration by the volume: 0.1000 M * 0.00900 L = 0.000900 moles. The moles of KOH initially present are 0.1000 M * 0.03000 L = 0.00300 moles.

Since HBr and KOH react in a 1:1 ratio, the remaining moles of KOH are 0.00300 - 0.000900 = 0.00210 moles. The resulting concentration is 0.00210 moles / 0.03900 L = 0.0538 M. To find the pH, we take the negative logarithm of the hydroxide ion concentration: pH = -log10(0.0538) = 1.269.

(b) After adding 29.40 ml of HBr solution, the total volume becomes 59.40 ml. Following the same calculations as in (a), the resulting concentration of KOH is found to be 0.0331 M. Taking the negative logarithm of the hydroxide ion concentration gives us a pH of 1.481.

(c) After adding 38.00 ml of HBr solution, the total volume becomes 68.00 ml. Similar calculations reveal a resulting concentration of KOH as 0.0210 M, resulting in a pH of 1.677.

Therefore, the pH during the titration after the specified additions of acid are: (a) 1.269, (b) 1.481, and (c) 1.677.0.0210 M, resulting in a pH of 1.677.

To know more about titration please visit:

https://brainly.com/question/31483031

#SPJ4

The facts that show the major significance of the element carbon in the human body are: "Carbon forms the backbone of all organic molecules" and "Carbon-containing molecules can form rings, branches, or coils".

Carbon is a fundamental element in the human body due to its ability to form the backbone of all organic molecules. This means that carbon atoms serve as the structural foundation for compounds such as proteins, carbohydrates, lipids, and nucleic acids. Additionally, the versatility of carbon allows it to form bonds with four different atoms, enabling the creation of complex and diverse molecules.

This versatility also enables carbon-containing molecules to form various shapes, such as rings, branches, or coils, which further enhances their functionality and biological significance. Therefore, these facts highlight the major significance of carbon in maintaining the structure and functions of essential molecules in the human body.

Learn more about carbon here:

https://brainly.com/question/33368151

#SPJ11

Complete question is:

what facts would you select to show the major significance of the element carbon in the human body? check all that apply.

- Carbon has four valance electrons

- Carbon forms the backbone of all organic molecules

- Carbon can form bonds with four different atoms

- Carbon-containing molecules can form rings, branches, or coils

The type of bond that will form between carbon and hydrogen is covalent bond.

Covalent bond is a type of chemical bond where two atoms are connected to each other by the sharing of two or more electrons.

In chemistry, the carbon-hydrogen bond (C−H bond) is a chemical bond between carbon and hydrogen atoms that can be found in many organic compounds. This bond is a covalent, single bond.

It can be formed because carbon shares its outer valence electrons with up to four hydrogen atoms.

Learn more about covalent bonds at: https://brainly.com/question/19382448

#SPJ4

The mass of 900 moles of F = 18.9984 g/mol × 900 mol = 17,098.56 g ≈ 17.1 kg.So, the mass of 900 moles of fluoride (F) is approximately 17.1 kg.

To calculate the mass of 900 moles of fluoride (F), we need to use the molar mass of fluoride, which is 18.9984 g/mol (as per the periodic table).The molar mass of a compound is the sum of the molar masses of each atom in it.

So, the mass of one mole of F is 18.9984 g/mol. And we need to find out the mass of 900 moles of F.

To know more about moles  visit:-

https://brainly.com/question/15209553

#SPJ11

7.11 grams of sodium bicarbonate will need to be added to fill up the bag with gas.

The balanced chemical equation for the given reaction is:

NaHCO3(s) + CH3COOH(aq) → NaCH3COO(aq) + CO2(g) + H2O(l)From the equation, it is evident that sodium bicarbonate (NaHCO3) and acetic acid (CH3COOH) react to form sodium acetate (NaCH3COO), carbon dioxide (CO2), and water (H2O).The molar ratio between NaHCO3 and CO2 can be observed from the balanced equation to be 1:1.Therefore, the number of moles of CO2 required to fill up the bag is given by:moles of CO2 = volume of bag (in liters) at STP (i.e., 0°C and 1 atm) = 2.1 L.

To convert the moles of CO2 to grams of NaHCO3, we need to use the molar mass of NaHCO3.Molar mass of NaHCO3 = 23 + 1 + 12 + 48

= 84 g/mol

Number of grams of NaHCO3 required = moles of CO2 × molar mass of

NaHCO3= 2.1 L × (1 mol CO2/22.4 L) × (84 g NaHCO3/mol CO2)≈ 7.11 g

To know more about sodium bicarbonate visit:-

https://brainly.com/question/8506770

#SPJ11

The given Newman projection shows the relative arrangement of atoms in space about a carbon-carbon bond. Here, the Newman projection formulas are drawn for different rotational angles between carbon atoms C-2 and C-3.

A Newman projection formula in a staggered conformation of a molecule is where the atoms and groups bonded to the two carbons are in an anti or trans relationship. Atoms or groups attached to the carbons do not eclipse each other, meaning they are not directly in front of each other.In this case, the staggered conformations are B and D and the eclipsed conformations are A and C.

As for conformation A, it has a C2 symmetry element because rotating it about a two-fold axis perpendicular to the plane of the paper (the center of the page) by 180 degrees brings it back to its original state. As such, this conformation is chiral since it does not superimpose on its mirror image.

To know more about Newman projection visit:-

https://brainly.com/question/24608677

#SPJ11

One mole of a substance is defined as the amount of that substance that contains the same number of particles as there are atoms in exactly 12 grams of carbon-12. Approximately 550 mL of the 0.3000 M NaCl solution is required to produce 0.1650 moles of NaCl.

In chemistry, a mole (mol) is a unit of measurement used to quantify the amount of a substance. It is a fundamental concept in stoichiometry and plays a central role in understanding the relationships between the masses, numbers of particles, and volumes of substances involved in chemical reactions.

To determine the volume of a 0.3000 M NaCl solution needed to produce 0.1650 moles of NaCl, we can use the equation:

moles = molarity x volume

Rearranging the equation to solve for volume:

volume = moles/molarity

Given that the moles of NaCl is 0.1650 and the molarity is 0.3000 M, we can substitute these values into the equation:

[tex]volume = 0.1650 moles / 0.3000 M\\ = 0.55 L[/tex]

To convert the volume from liters to milliliters, we multiply by 1000:

[tex]volume = 0.55 L * 1000 mL/L\\volume = 550 mL[/tex]

Therefore, approximately 550 mL of the 0.3000 M NaCl solution is required to produce 0.1650 moles of NaCl.

For more details regarding mole, visit:

https://brainly.com/question/30892840

#SPJ4

When drawing the Lewis structure of the molecule H-C-Cl₃ (trichloromethane or chloroform), the structure should represent a total of 26 valence electrons.

To determine the number of valence electrons in the molecule, we need to consider the valence electrons of each atom involved. Hydrogen (H) has 1 valence electron, carbon (C) has 4 valence electrons, and chlorine (Cl) has 7 valence electrons each. Since there are three chlorine atoms in the molecule, we multiply the number of valence electrons of chlorine by 3.

The calculation is as follows:

Number of valence electrons = Valence electrons of H + Valence electrons of C + (Valence electrons of Cl × number of Cl atoms)

Number of valence electrons = 1 + 4 + (7 × 3) = 1 + 4 + 21 = 26

Therefore, the Lewis structure of H-C-Cl₃ should represent a total of 26 valence electrons.

When drawing the Lewis structure, we arrange the atoms with the central atom (carbon) in the center, surrounded by the three chlorine atoms. Each atom is connected by a single bond, represented by a line, and each atom achieves an octet (except hydrogen) by sharing electrons. Carbon is bonded to three chlorine atoms and one hydrogen atom, satisfying its octet. The remaining valence electrons are placed as lone pairs on the outer atoms to fulfill their octets.

It's important to note that Lewis structures are simplified representations of molecular bonding and electron distribution. They help us understand the connectivity of atoms and the distribution of valence electrons, but they do not provide a complete description of the molecule's shape or the actual electron density distribution.

for more questions on Lewis structure

https://brainly.com/question/13205107

#SPJ8

By chemical analysis, a sample of a substance was found to contain 0.360 g of Na, 0.220 g of N, and 0.752 g of O. Here is how to calculate the moles of each element that are present in this sample:We need to first convert the mass of each element to moles. The molar masses of Na, N, and O are 22.99 g/mol, 14.01 g/mol, and 16.00 g/mol respectively.

Number of moles of Na = 0.360 g ÷ 22.99 g/mol = 0.0157 mol

Number of moles of N = 0.220 g ÷ 14.01 g/mol = 0.0157 mol

Number of moles of O = 0.752 g ÷ 16.00 g/mol = 0.047 mol

Now, to find the empirical formula of this substance, we need to divide the number of moles of each element by the smallest number of moles. In this case, the smallest number of moles is 0.0157 mol.

Number of moles of Na in empirical formula = 0.0157 mol ÷ 0.0157 mol = 1

Number of moles of N in empirical formula = 0.0157 mol ÷ 0.0157 mol = 1

Number of moles of O in empirical formula = 0.047 mol ÷ 0.0157 mol ≈ 3.

Therefore, the empirical formula of this substance is NaNO3. This means that there is one sodium atom, one nitrogen atom, and three oxygen atoms in each molecule of this substance.

To know more about chemical analysis visit:-

https://brainly.com/question/2625200

#SPJ11

The successive ligand displacement reactions occur with relative ease in the order K1 > K2 > K3, where K1 is the largest stability constant. This implies that it is easier to displace acac in the first step than in the subsequent steps.

For the given reaction of

[M(OH2)6]n*(aq) + 6 L(aq) ⇔ [ML6]n(aq) + 6H2O,

the expressions to define the stepwise stability constants for the 2nd and 4th equilibria and the expressions to define the overall stability constants, β2 and β4, are given as follows:

Stepwise stability constants:For the 2nd equilibrium,

K2 = {[ML4]n(aq) [L2]2(aq)}/{[M(OH2)6-n]n(aq)}

For the 4th equilibrium, K4 = {[ML6]n(aq) [H2O]6}/{[ML4]n(aq)}

Overall stability constants:

β2 = K2/{[H2O]6 [L2]2(aq)}β4

= K4/{[H2O]6}

Now, using the given stability constants

Kf = 8.0 × 1029, logKd

= −31.3, Kd = 2.2 × 10−24, and logKf = 30.3, we can calculate the stability of the given complex ions as follows:

Kstab

= β2 β4 = Kf/Kd

= 8.0 × 1029/2.2 × 10−24

= 3.64 × 1052[Cr(OH)4]−:

This complex is tetrahedral and has four monodentate OH− ligands.

Hence, its Kstab = (β2)4[Ni(CN)4]2−:

This complex is square planar and has four monodentate CN− ligands.

Hence, its Kstab = (β2)4[Cu(CN)4]3−:

This complex is square pyramidal and has four monodentate CN− ligands and one bridging CN− ligand.

Hence, its Kstab = (β2)4.

Therefore, the stability of complex ions from most stable to least stable is

[Cr(OH)4]− > [Ni(CN)4]2− > [Cu(CN)4]3−.

In the given pH study of complex formation between Al3+ and [acac] in aqueous solution, the values of logK1, logK2, and logK3 are 8.6, 7.9, and 5.8, respectively.

The equations for these values are given as follows:

Al3+ + acac ⇔ [Al(acac)]2+ {K1

= [Al(acac)]2+/[Al3+][acac]}[Al(acac)]2+ + acac

⇔ [Al(acac)2]+ {K2 = [Al(acac)2]+/[Al(acac)]2+[acac]}[Al(acac)2]+ + acac

⇔ [Al(acac)3] {K3 = [Al(acac)3]/[Al(acac)2]+[acac]}

The values for ΔG1∘, ΔG2∘, and ΔG3∘ at 303 K can be calculated using the relationship ΔG∘ = −RT lnK, where R is the universal gas constant and T is the temperature. The values for ΔG1∘, ΔG2∘, and ΔG3∘ at 303 K are 14.0 kJ/mol, 11.4 kJ/mol, and 6.0 kJ/mol, respectively.

To know more about ligand displacement visit:-

https://brainly.com/question/2980623

#SPJ11

Answer:

Covalent molecular compounds are formed by atoms sharing electrons, C5H12 and SF6 are expected to exist as molecules. In contrast, MgBr2 and Cu(NO3)2 are ionic compounds and would not be expected to exist as molecules.

Pyridinium tribromide acts as a bromine source, facilitating the bromination reaction by providing bromine atoms for the substitution of hydrogen atoms in trans-cinnamic acid.

Trans-cinnamic acid bromination requires pyridinium tribromide ([tex]Py[/tex]·[tex]Br_3[/tex]). It supplies bromine atoms for the bromination reaction.

Pyridinium tribromide is a moderate, selective brominating agent. It introduces bromine atoms at certain aromatic ring locations with trans-cinnamic acid.

Pyridinium tribromide transfers a bromine atom to the double bond of trans-cinnamic acid, forming the brominated product. Bromination can replace a hydrogen atom on the benzene ring with a bromine atom. Pyridinium tribromide provides regulated bromination of trans-cinnamic acid, allowing chemists to deliberately change specific sites and produce desired brominated derivatives for study or organic synthesis.

Learn more about bromination, here:

https://brainly.com/question/28938775

#SPJ4

The required concentration of KCI solution that needs to be prepared is 0.128 mol/L.

In order to create an isotonic solution, we need to balance the osmotic pressure inside and outside the cell. The osmotic pressure inside the cell is given to be 7.9 atm.

We need to find out what concentration of KCI solution should be prepared so that the osmotic pressure of the cell is equal to the osmotic pressure of the KCI solution.

Let's begin the calculation. We will use the following formula to solve this problem:

π = iMRT

Where,π = osmotic pressure of the solution

i = van't Hoff factor

M = molarity of the solution

R = gas constant

T = temperature

In this case, the osmotic pressure of the cell is given to be 7.9 atm and the temperature is 22°C = 295 K.

We will assume that KCI dissociates completely into its constituent ions, K+ and Cl-.

Therefore, i = 2. The gas constant R is 0.082 L·atm/mol·K.

We need to find the molarity of the KCI solution.

We will set the osmotic pressure of the KCI solution to be equal to that of the cell, i.e. 7.9 atm.

π = iMRT

7.9 atm = 2M(0.082 L·atm/mol·K)(295 K)

M = 0.128 mol/L

Therefore, the required concentration of KCI solution that needs to be prepared is 0.128 mol/L.

To know more about concentration visit:

https://brainly.com/question/30862855

#SPJ11

Out of the given options, the liquid that helps grow a tomato plant faster is a. water

Since the growth of its plant by planting it can be observed, tomatoes, which include a living system, are actually a part of a more complicated system. Despite the fact that tomato fruits are filled with small seeds, if they fall to the ground, they will immediately grow.

Water is the substance that will enable a tomato plant to grow more quickly. Water is crucial for plant growth because it keeps plants hydrated and makes it easier for them to absorb nutrients through their roots. It promotes photosynthesis, stimulates the movement of nutrients and minerals throughout the plant, and keeps plant cells hard and swollen.

Read more about tomato on:

https://brainly.com/question/28783779

#SPJ4

Complete Question:

Which liquids will help grow a tomato plant faster ?

a. water,

b. coffee,

c. milk, and

d. fertilizer

e. dissolved water

1) Non-metals are characterized by their high electronegativity, insulating ability, and generally poor thermal conductivity. They are good insulators and are typically brittle solids or gases.

2) The atomic number of gold is 79, and its atomic weight is 118. This implies that the atomic weight is equal to the sum of the number of protons (79) and the number of neutrons (39).

The number of electrons in a neutral atom is the same as the number of protons, thus a gold atom has 79 electrons.3) False4) Selenium5) Isotopes6) The most abundant isotope of Silicon is 28Si.7)

To know more about Non-metals visit:-

https://brainly.com/question/28994303

#SPJ11