balanced ionic equation: a precipitate of barium sulfate forms when aqueous solutions of barium nitrate and potassium sulfate are mixed.

H2O will form a covalent compound. Usually covalent bonds are formed between two  or more nonmetals.

The Water molecules interact dynamically. Each H₂O molecule is a V-shaped and is made up of one oxygen atom and two hydrogen atoms, which are shown in white (depicted in red). Hydrogen bonds are allow adjacent H₂O molecules to temporarily connect with one another (depicted as blue and white ovals).  The Individual H₂O molecules are held together by powerful bonds between the hydrogen (white) and oxygen (red) atoms. When two atoms as in this case, oxygen and hydrogen share the electrons, a covalent link is created. Each end of  V-shaped H₂O molecule adopts a slightly different charge because oxygen and thehydrogen draw the shared electrons from each other in different ways.

In contrast to the opposite, hydrogen-containing end of the molecule, which is somewhat positive, the region around the oxygen is relatively negative.

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Your question is incomplete, for the full question refer:

Which compound among these has covalent bonds?

H2O, Li2O, Na2O, K2O

Answer:

The correct answer is -2878 kJ/mol.

Explanation:

The reaction that takes place at the time of the oxidation of glucose is,  

C₆H₁₂O₆ (s) + 6O₂ (g) ⇒ 6CO₂ (g) + 6H₂O (l)

The standard free energy change for the oxidation of glucose can be determined by using the formula,  

ΔG°rxn = ∑nΔG°f (products) - ∑nΔG°f (reactants)

The ΔG°f for glucose is -910.56 kJ/mol, for oxygen is 0 kJ/mol, for H2O -237.14 kJ/mol and for CO2 is -394.39 kJ/mol.  

Therefore, ΔG°rxn = 6 (-237.14) + 6 (-394.39) - (-910.56)

ΔG°rxn = -2878 kJ/mol

Answer:

B.

Explanation:

A chemical reaction that has the general formula of nA → (A)n is best classified as a polymerization reaction.

Answer:

B. Polymerization

Explanation:

I'm just smart

Considering the ideal gas law, the volume occupied by 3.25 moles of an ideal gas at a temperature of 18.00°C is 686.71 L.

An ideal gas is the behavior of those gases whose molecules do not interact with each other and move randomly. Under normal conditions and under standard conditions, most gases exhibit ideal gas behavior.

An ideal gas is characterized by three state variables: absolute pressure (P), volume (V), and absolute temperature (T), related by a simple formula called the ideal gas law:

P×V = n×R×T

Where:

In this case, you know:

Replacing in the ideal gas law:

1.13 atm×V = 3.25 mol× 0.8205 L.atm/K.mol× 291 K

Solving:

V = (3.25 mol× 0.8205 L.atm/K.mol× 291 K)÷ 1.13 atm

V= 686.71 L

Finally, the volume is 686.71 L.

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Answer:

1.005 x \(10^{1}\)

Explanation:

Based on the Law of Conservation of Mass, 168 g/mole mass of products form when baking soda decomposes.

The law of conservation of mass states that for any system closed to all transfers of matter and energy, the mass of the system must remain constant over time, the total mass of reactant is equal to the mass of product.

From the balanced chemical equation as follows:

NaHCO3 → Na₂CO3 + H₂O + CO₂  

we have,

Mass of baking soda = 2 x molar mass

Molar mass of NaHCO₃ = 84.007 g/mole

Mass of baking soda = 2 x 84.007 g/mole

Mass of baking soda =  168.014 g/mole

=  168 g/mole

Thus, Based on the Law of Conservation of Mass, 168 g/mole mass of products form when baking soda decomposes.

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The ideal gas law may be used to determine the volume of oxygen created in the electrolysis that produces 548 litres of hydrogen at STP (Standard Temperature and Pressure). PV = nRT, where P is the pressure, V is the volume, n is the number of moles, R is the gas constant, and T is the temperature, according to the ideal gas equation.

The pressure is 1 atm, the temperature is 273 K, and the number of moles of hydrogen is 548/22.4 = 24.5 in this example. We may compute the volume of oxygen created by rearranging the ideal gas law: V = nRT/P = 24.5*0.082*273/1 = 483.3 litres.

As a result, the volume of oxygen created in the electrolysis at STP that produces 548 litres of hydrogen is 483.3 litres.

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Answer:

I think it would be b. The octet rule states that transition metal group elements tend to react so that they attain a noble gas electron configuration.

The data that would demonstrate the action of photosynthesis is:

"When the container included a plant exposed to light, carbon dioxide concentration went from 800 to 600 ppm."

This data shows a decrease in carbon dioxide concentration from 800 to 600 ppm when a plant is exposed to light. During photosynthesis, plants absorb carbon dioxide from the surrounding environment and convert it into glucose and oxygen. The decrease in carbon dioxide concentration indicates that the plant is actively utilizing carbon dioxide for photosynthesis. As a result, the carbon dioxide level in the container decreases, demonstrating the action of photosynthesis. The other provided data points do not specifically indicate the action of photosynthesis. The first data point suggests that multiple plants in the container can prevent the carbon dioxide concentration from exceeding 1,000 ppm, but it does not indicate any decrease in concentration. The second data point mentions plants in darkness, which would not promote photosynthesis.

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The complete Lewis electron-dot diagram for ethyne is shown in the attached diagram below:

A lewis electron dot structure can be utilized to represent the number of bonds, the lone pairs left in the atoms, and the bonding atoms in the molecule.

Solid lines are used to represent the bonds between atoms that are directly bonded to one another and excess electrons are denoted as dot pairs and are represented next to the atoms.

As the valence electrons of each carbon atom are equal to 4 from the electronic configuration of the carbon atom. First, the total number of valence electrons in a molecule is 4 + 1 + 1 + 4 = 10.

As each carbon atom needs only 4 electrons to complete its octet. As the octet completes, the rest of the electrons are assigned as the lone pairs of atoms. But there are no lone pairs in the molecule of the ethyne.

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Answer:

d=m/

Explanation:

d is density, m is mass, v is volume

Given: m =10.4g, v=12.2mL

substituting in equation,

d=10.4/ 12.2

d=0.8524g/mL

To learn more about density:

The density of the liquid is 0.852 g/mL.

To calculate the density of the liquid, we need to use the formula:

Density = Mass / Volume

Given that the mass of the liquid is 10.4 g and the volume is 12.2 mL, we can substitute these values into the formula:

Density = 10.4 g / 12.2 mL

Simplifying this expression, we find:

Density = 0.852 g/mL

Density is a physical property of a substance and is defined as the amount of mass per unit volume. In this case, the density tells us that for every milliliter of the liquid, there is 0.852 grams of mass. The units of grams per milliliter (g/mL) indicate that the density is a ratio of mass to volume.It is important to note that the density of a substance can vary with temperature, so this value is only valid under the conditions at which the measurement was made. Additionally, the density can provide valuable information about the identity of a substance, as different substances have different densities.

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The solubility of carbon dioxide in water at the given pressure would be 8.45 g CO2 in 100 mL of water.  

According to Henry's law:

C = kH x P

where:

To solve this problem, we need to use the Henry's law constant for carbon dioxide in water at 20 \(^oC\), which is 0.0349 mol/L/atm. Let's convert the given solubility from mass/volume units to molar concentration units as follows:

Now we can use Henry's law to calculate the solubility of carbon dioxide in water at 5.50 atm:

Concentration from mol/L to mass/volume units:

0.192 mol/L x 44.01 g/mol = 8.45 g CO2 / 100 mL

Therefore, the solubility of carbon dioxide in water at 5.50 atm pressure is approximately 8.45 g CO2 in 100 mL of water at 20 \(^oC\).

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Answer:

Hi I ll explain

Explanation:

\(0.4mol \times \frac{22.4liter}{1mol} = 8.96liter\)

Remember

At STP always one mole of every gas equals 22.4 liter

The volume of 6.40 grams of O₂ gas at STP is 4.48L (option A). Details about volume can be found below.

The volume of a gas can be calculated using the following formula:

p = m/v

Where;

According to this question, the mass of O₂ gas at STP is 6.40 grams. The density of the gas at STP is 1.43 g/L.

1.43g/L = 6.4g/V

Volume of O2 = 6.4 ÷ 1.43 = 4.48L

Therefore, the volume of 6.40 grams of O₂ gas at STP is 4.48L.

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Answer:

This is right!!! the answer is A 4.49

Explanation:

A solution with nitrate(V) ion concentrations over 0.05 mg/cm3 has a molarity of around 1.61 x 10-5 mol/L.

We must first convert the amount of nitrate(V) ions in drinking water to moles per litre since the threshold concentration over which "Blue-Baby" Syndrome might manifest is 0.05 mg/cm3.

It is necessary to know the molar mass of nitrate(V) ions in order to convert from mg/cm3 to moles per litre (NO3-).

The formula below can be used to determine NO3-'s molar mass:

N: 14.01 g/mol for the atomic mass

O: 16.00 g/mol is the atomic mass (3 oxygen atoms in NO3-)

NO3-'s total molar mass is equal to 14.01 + 16.00 x 3 = 62.01 g/mol.

Let's now translate the specified concentration from mg/cm3 to moles/liter (M).

As 1 g = 1000 mg, 1 mg/cm3 is 0.001 g/cm3.

1 cm3 = 0.001 g/mL multiplied by 0.001 g/cm3

1 L/1000 mL x 0.001 g/mL = 0.001 g/L

We must change the grams into moles using the molar mass in order to get the molarity:

1.61 × 10-5 mol/L = 0.001 g/L / 62.01 g/mol

As a result, a solution with nitrate(V) ion concentrations over 0.05 mg/cm3 has a molarity of around 1.61 x 10-5 mol/L.

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Answer

The atom that complies with this is the one located in the lowest row to the right.

Procedure

By looking at our periodic table we can see that fluorine has an atomic number of 9, so it will have 9 protons in the nucleus. To be neutral it should have the same amount of electrons. The atom that complies with this is the one located in the low row to the right.

Answer:

\(\rho =1.96\frac{g}{L}\)

Explanation:

Hello there!

In this case, since this imaginary gas can be modelled as an ideal gas, we can write:

\(PV=nRT\)

Which can be written in terms of density and molar mass as shown below:

\(\frac{P}{RT} =\frac{n}{V} \\\\\frac{P}{RT} =\frac{m}{MM*V}\\\\\frac{P*MM}{RT} =\frac{m}{V}=\rho\)

Thus, by computing the pressure in atmospheres, the resulting density would be:

\(\rho = \frac{165/760 atm * 314.2 g/mol}{0.08206\frac{atm*L}{mol*K}*425K} \\\\\rho =1.96\frac{g}{L}\)

Best regards!

The statement that best describes how an ionic compound dissolves in water is as follows: it separates into individual molecules and is an electrolyte, which is option C.

Ionic compound is any compound is a chemical compound composed of ions (charged atoms) held together by electrostatic forces termed ionic bonding.

Ionic compounds are electrolytes i.e. a substance when, in solution or when molten, ionizes and conducts electricity.

For example; sodium chloride (NaCl) is an ionic compound breaks down into sodium ions (Na+) and chloride ion (Cl-).

Therefore, the statement that best describes how an ionic compound dissolves in water is as follows: it separates into individual molecules and is an electrolyte.

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The unit "kg·m·m" represents the unit of measurement for work or energy, which is called a joule (J).

The formula for work or energy is given by

W = F × d × cos(θ),

where

F is the force applied,

d is the displacement, and

θ is the angle between the force and displacement vectors.

When the force is expressed in newtons (N) and the displacement in meters (m), the unit of work or energy becomes joules (J).

Therefore, "kg·m·m" is equivalent to joules (J), the unit of work or energy.

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Answer:

its does not

Explanation:

not do...................

Based on the data shown in the graph, the rate of reaction is directly proportional to the temperature of a reaction.

The speed at which a chemical reaction occurs is called the reaction rate or rate of reaction. The rate of a reaction is proportional to the increase in product concentration per unit time and the decrease in reactant concentration per unit time.

The rate of a reaction is affected by the following:

the temperature of the reaction - the rate of reaction is directly proportional to the temperature of a reaction. Hence, the rate of a reaction increases with an increase in temperature.

presence of a catalyst - the rate of a reaction increases with the addition of a catalyst. A catalyst speeds up the rate of a reaction.

the surface area of the reactants - the rate of a reaction increases with an increase in the surface area of the reactants,

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Answer:

At higher temperatures, chemical reactions occur more quickly.

Explanation:

edmentum

Answer:

The reaction between carbon (C) and water (H2O) forms carbon monoxide (CO) and hydrogen gas (H2). The balanced chemical equation for this reaction is:

C(s) + H2O(g) -> CO(g) + H2(g)

According to this balanced equation, one mole of carbon reacts with one mole of water to produce one mole of carbon monoxide and one mole of hydrogen gas.

First, calculate the number of moles of carbon in 34 grams. The molar mass of carbon is approximately 12.01 grams/mole.

Moles of carbon = 34 grams / 12.01 grams/mole = 2.831 moles

As the stoichiometry of the reaction shows a 1:1 ratio between carbon and hydrogen, the moles of hydrogen produced would also be 2.831 moles.

The molar mass of hydrogen (H2) is approximately 2 grams/mole.

So, the mass of hydrogen produced = 2.831 moles * 2 grams/mole = 5.662 grams

Therefore, if 34 grams of carbon reacts with an unlimited amount of water, approximately 5.66 grams of hydrogen gas would be formed.

Explanation:

Approximations followed for answer.

Answer:

We first look up in the periodic table the molar mass of each individual element:

Fe: 55.84 g/mol

Cl: 35.45 g/mol

Then we calculate the molar mass of the compound:

Finaly we calculate the percentage:

So finally, the percentages of each element in the molecule are:

Fe: 34.4%

Cl: 65.6%

An oxygen gas has a volume of 225 mL at 75.0° C and 175 mmHg the volume of the oxygen gas at the new conditions is 12 mL.

We can use the combined gas law to solve for the volume of the oxygen gas at the second set of conditions:

(P1 * V1) / (T1) = (P2 * V2) / (T2)

Where P1, V1, and T1 are the initial pressure, volume, and temperature, and P2, V2, and T2 are the final pressure, volume, and temperature.

Converting the initial conditions to SI units:

V1 = 225 mL = 0.225 L

T1 = 75.0 + 273.15 = 348.15 K

P1 = 175 mmHg = 0.23 atm

Converting the final conditions to SI units:

T2 = 20.0 + 273.15 = 293.15 K

P2 = 11000 mmHg = 14.47 atm

Now we can solve for V2:

V2 = (P1 * V1 * T2) / (T1 * P2)

V2 = (0.23 * 0.225 * 293.15) / (348.15 * 14.47)

V2 = 0.012 L = 12 mL

Therefore, the volume of the oxygen gas at the new conditions is 12 mL.

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Answer: The answer is B

Explanation:

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Answer:

B

:D

Explanation:

Carbon atoms may thus form bonds to as many as four other atoms. For example, in methane (CH 4​start subscript, 4, end subscript), carbon forms covalent bonds with four hydrogen atoms

__________________________________________________________

Answer:

Ratio = 2 : 3 (Approx.)

Explanation:

Given:

Compound A = 1.278 g

Compound B = 1.904

Find:

Ratio

Computation:

Ratio = Compound A / Compound B

Ratio = 1.278 / 1.904

Ratio = 2 : 3 (Approx.)

The limiting reactant in the reaction is NaOH. one mole or 40 g of NaOH gives 58.5 g of NaCl. Thus, 4.16 g have to give 6.08 g but the actual yield is 5.79 g. Thus the percent yield of the reaction is 95%.

Percent yield of a reaction is the ratio of actual yield to the theoretical  yield multiplied by 100.

The molar mass of NaOH is 40 g/mol. Thus number of moles of NaOH is 4.16 /40 = 0.10 moles. Similarly the molar mass of HCl is 36.5 g/mol and number of moles in 5.81 g is 5.81/ 36.5 = 0.15 moles.

One mole of HCl needs 1 mole of NaOH, thus 0.15 moles need 0.15 moles NaOH but we have 0.1 only. Thus, NaOH is the limiting reactant.

40 g of NaOH gives 58.5 g of NaCl (1 mole). Thus the theoretical yield for 4.16 g of NaOH  is :

=  ( 4.16 × 58.5 )/40

= 6.04 g.

The actual yield is 5.79 g. Thus percent yield =(5.79/6.04) × 100 = 95%.

Hence, the percent yield of the reaction is 95%.

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Answer:

The balanced chemical equation will be "\(NO_{2}+O\rightarrow NO+O_{2}\)".

Explanation:

The given equation is:

\(2NO_{2}\rightarrow 2NO+O_{2}\)

Step 1:

\(2NO_{2}\rightarrow NO+O\)...(equation 1)

Step 2:

\(NO_{2}+O\rightarrow NO+O_{2}\)...(equation 2)

On adding "equation 1" and "equation 2", we get

⇒  \(NO_{2}+NO_{2}+O\rightarrow NO+O+NO+O_{2}\)

⇒  \(2NO_{2}\rightarrow 2NO+O_{2}\)

The second step:

⇒  \(NO_{2}+O\rightarrow NO+O_{2}\)