what type of bond forms between two oxygen atoms

13 An Ionic Bond

these are the characteristics of an ionic bond compounds like NaCl have these characteristics

14 substances could be compounds or elements hence not all substances are compounds

15 It is not water. The chemical composition of water is H2O not H202

(H202 is hydrogen peroxide and is toxic)

The chemical reaction has been the formation of product with the reaction of reactants. The chemical reaction has been differentiated as synthesis, decomposition, replacement reaction.

The following reaction has been classified as:

The reaction has been following the synthesis of the product with a mixture of reactants. Thus, it has been given as the synthesis reaction.

There has been replacement of Ca by Ag in calcium chloride and replacement of Ag by Ca in silver nitrate. There has been two replacement. Thus, the reaction has been a double replacement reaction.

The reaction has replacement of Cu by Zn in copper sulfate. It has been a single replacement, thus the reaction has been a single replacement reaction.

There has breakdown of the compound for the formation of product. Thus, the reaction has been a decomposition reaction.

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Answer:

synthesis and combustion

double replacement

single replacement

decomposition only

Explanation:

in that order, i got it correct

Answer:

Na₂CO₃•H₂O

Explanation:

After it is heated, the remaining mass is the mass of sodium carbonate.

30.2 g Na₂CO₃

Mass is conserved, so the difference is the mass of the water:

35.4 g − 30.2 g = 5.2 g H₂O

Convert masses to moles:

30.2 g Na₂CO₃ × (1 mol Na₂CO₃ / 106 g Na₂CO₃) = 0.285 mol Na₂CO₃

5.2 g H₂O × (1 mol H₂O / 18.0 g H₂O) = 0.289 mol H₂O

Normalize by dividing by the smallest:

0.285 / 0.285 = 1.00 mol Na₂CO₃

0.289 / 0.285 = 1.01 mol H₂O

The ratio is approximately 1:1.  So the formula of the hydrate is Na₂CO₃•H₂O.

Na₂CO₃•H₂O

Given:

Question:

What is the formula for the hydrate?

Problem-solving:

We will solve problems related to The Law of Definite Proportion (Proust's Law).

"The ratio of the masses of elements in each compound is always constant. Put differently, a given compound invariably contains a similar proportion of elements by mass."

The heating reaction of the hydrate of sodium carbonate is as follows:

[tex]\boxed{ \ Na_2CO_3.nH_2O \xrightarrow{\text{heat}} Na_2CO_3 + nH_2O \ }[/tex]

Condition:

[tex]\boxed{ \ Na_2CO_3.nH_2O \xrightarrow{\text{heat}} Na_2CO_3 + nH_2O \ }[/tex]

         35.4 g                 30.2 g       5.2 g

We want to determine the amount of water (with the symbol n) so that the formula for the hydrate can be known.

Recall that [tex]\boxed{ \ Moles = \frac{Mass \ (g)}{Mr} \ }[/tex]

Let us prepare the number of moles of Na₂CO₃ and H₂O respectively.

Finally, we use the mole ratio to write the formula. Find the water-to-anhydrate mole ratio.

[tex]\boxed{ \ Na_2CO_3 \ : \ H_2O = 1 \ : \ n  \ }[/tex]

[tex]\boxed{ \ H_2O \ : \ Na_2CO_3 = n \ : \ 1  \ }[/tex]

[tex]\boxed{ \ n \ : \ 1 = 0.289 \ : \ 0.285 \ }[/tex]

[tex]\boxed{ \ n = \frac{0.289}{0.285} \times 1 \ }[/tex]

Thus, the value of n after rounding is [tex]\boxed{ \ n = 1 \ }[/tex]

Substitute n = 1 into Na₂CO₃•nH₂O.

Therefore, the formula for the hydrate is [tex]\boxed{\boxed{ \ Na_2CO_3.H_2O \ }} [/tex]

Keywords: 35.40 gram, hydrate of sodium carbonate, Na₂CO₃•nH₂O, heating, a constant mass, its final weight, 30.2 g, what is the formula for the hydrate? the law of definite proportion, Proust's law, anhydrate, the mole ratio

Answer:

It conducts electricity when it is dissolved in water.

Explanation:

It conducts electricity when it is dissolved in water is a property of a substance that is composed of atoms that are held together by ionic bonds.

The property of a substance that is composed of atoms that are held together by ionic bonds. As soon as it is dissolved in water, it conducts electricity.

Ionic bonds are defined as the type of chemical compound connection created by the electrostatic attraction of ions with opposing charges. Ionic bonds are important because they enable the production of particular organic molecules, ionic bonds are significant.

A material's electrical conductivity, or capacity to carry a current, is a measure of how much electrical current it can carry. While electrical conductance is a characteristic of a specific electrical component, electrical conductivity is a quality of the substance itself. How much voltage is needed to for a certain quantity of electric current to flow can be used to determine electrical conductivity.

Thus the property of a substance that is composed of atoms that are held together by ionic bonds. As soon as it is dissolved in water, it conducts electricity.

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Answer:

[tex]\boxed{\text{163.3 L}}[/tex]

Explanation:

The pressure is constant, so, to calculate the volume, we can use Charles' Law:

\dfrac{V_{1}}{T_{1}} = \dfrac{V_{2}}{T_{2}}

Data:

V₁ = ?;            T₁ =    450 K

V₂ = 103.4 L; T₂ = 284.9 K

Calculation:

[tex]\dfrac{ V_{1}}{450} = \dfrac{ 103.4}{284.9}\\\\{ V_{1}} = 450 \times \dfrac{103.4}{284.9}\\\\ = \textbf{163.3 L}\\\text{The original volume of the helium was $\boxed{\textbf{163.3 L}}$}[/tex]

The original volume of the gas is 186.94 Liters

Further Explanation;

That is;[tex]V\alpha T[/tex]

[tex]P=kT[/tex],  where k is a constant

At different temperatures and pressure then;

[tex]\frac{V_{1} }{T_{1} } =\frac{V_{2} }{T_{2} }[/tex]

In the Question;

We are given

[tex]V_{1} = ?\\T_{1} = 450\\V_{2} = 103.4 l\\T_{2} =248.9K[/tex]

Therefore;

[tex]V_{1} =\frac{V_{2} T_{1} }{T_{2} }[/tex]

[tex]V_{1} =\frac{(103.4 L)(450 K)}{(248.9K)}[/tex]

[tex]V_{1} = 186.94Liters[/tex]

That is;

[tex]P\alpha \frac{1}{V}[/tex]

[tex]P\alpha \frac{k}{V}[/tex], where k is a constant

[tex]\frac{P_{1}V_{1} }{T_{1} } = \frac{P_{2}V_{2} }{T_{2} }[/tex]

Keywords: Combined gas laws, Boyle's law and Charles's law

Level: High school

Subject: Chemistry

Topic: Gas laws

Sub-topic: Charles's law

Answer:

Protons and neutrons form the nucleus of the atom with electrons orbiting it.- C.

The correct answer is C. Protons and neutrons form the nucleus of the atom with electrons orbiting it

Explanation:

Bohr model was proposed by Niels Bohr in 1913 to explain the structure of atoms, in this Bohr stated electrons (particles negatively charge) orbit the nucleus that contains both neutrons (neutral particles) and protons (positively charged particles). Additionally, according to this model electrons were placed in different levels of energy and orbit the nucleus constantly, resembling planets in the Solar System, although the Bohr model was the first one that integrated principles related to energy levels and changes in energy in electrons. Thus, Bohr proposed "Protons and neutrons form the nucleus of the atom with electrons orbiting it".

Answer:

The molar mass of potassium oxide, aka K20 would be option C. 94.0g

Explanation:

The molar mass of potassium oxide (K₂O) is 94.20 g/mol, matching option C (94.0 g).

To find the molar mass of potassium oxide (K₂O), we need to sum the molar masses of the constituent elements.

Therefore, the molar mass of potassium oxide (K₂O) is 94.20 g/mol, which is closest to option C (94.0 g).

Answer:

[tex]\boxed{\text{Pressure and volume}}[/tex]

Explanation:

The measure of R is always the same, but the numbers may differ depending on the units you use.

For example, in SI units, R = 8.314 Pa·m³K⁻¹mol

If your measurement uses different units, you must either convert your units to SI or use a value of R consistent with your units.

If you use bars and litres,                       R = 0.083 14   bar·L·K⁻¹mol⁻¹.

If you use kilopascals and litres,            R = 8.314        kPa·L·K⁻¹mol

If you use atmospheres and litres,        R = 0.082 06 L·atm·K⁻¹mol⁻¹.

If you use Torr and cubic centimetres, R = 62 368     Torr·cm³ K⁻¹mol⁻¹.

The only units that don't change are "K⁻¹mol⁻¹".

[tex]\text{The quantities that affect the value of R are }\boxed{\textbf{pressure and volume}}[/tex]

Na2C03 is formed through the reaction of

NaOH and H2CO3 namely sodium hydroxide and carbonic acid

NaOH -> strong base

H2CO3-> weak acid

Answer:

A. a weak acid and a strong base

Explanation:

An acid-base reaction is a chemical reaction between an acid and a base to form salt and water. The reaction is also known as a neutralization reaction.

An acid is a compound that when in aqueous solution it dissociate to form an hydrogen ion(H+).

A base is a compound that when in aqueous solution it produces an hydroxide ion(OH-) .

A strong acid is an acid that completely dissociate in an aqueous solution.

A strong base is a base that completely dissociate in an aqueous solution.

The reaction that produce a salt like sodium carbonate is a chemical reaction between a weak acid and a strong base. The chemical reaction can be represented as follows

H2CO3 + 2NaOH → Na2CO3 + 2H2O

H2CO3 is a weak acid as it partially dissociate in aqueous solution.

NaOH is a strong base as it completely dissociate in aqueous solution.

Answer:

3Ag⁺ + 3NO₃⁻ + 3Na⁺ + PO₄³⁻ → Ag₃PO₄(s) + 3Na⁺ + 3NO₃⁻

Explanation:

An ionic equation is a chemical equation where the electrolytes in aqueous solution are expressed as dissociated ions.

For the reaction:

3AgNO₃(aq) + Na₃PO₄(aq) → Ag₃PO₄(s) + 3 NaNO₃(aq)

AgNO₃(aq), Na₃PO₄(aq) and NaNO₃(aq) are dissociated in water thus:

AgNO₃(aq) → Ag⁺ + NO₃⁻

Na₃PO₄(aq) → 3Na⁺ + PO₄³⁻

NaNO₃(aq) → Na⁺ + NO₃⁻

The ionic equation is:

3Ag⁺ + 3NO₃⁻ + 3Na⁺ + PO₄³⁻ → Ag₃PO₄(s) + 3Na⁺ + 3NO₃⁻

I hope it helps!

Since fire was discovered have people studied chemistry

Chemistry is a science that is dedicated to the study of the following topics:

It is one of the oldest sciences in the world because it is considered that it began with the first individuals who manipulated and discovered fire.

Over time it has evolved and many scientists have found different important knowledge such as the states of matter, the chemical elements of the earth, radioactivity, chemical reactions between elements and other knowledge.

According to the above, the correct answer is C. because it mentions the event considered as the beginning of the study of chemistry.

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Answer:

since was fire was discovered

Explanation:

Answer:

CO2

Explanation:

it is a gas and solubable in colder weather/temperature

The solubility of CO2 is lesser at higher temperature than it is at a lower temprature.

The solubility of a gas in water is an exothermic process. This implies that the higher the temperature, the lower the solubility of the gas.

As such, we know that CO2 is the only gas in the list hence the solubility of CO2 is lesser at higher temperature than it is at a lower temprature.

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Answer:

The correct answer would be Food.

Answer:

Isotopes

Explanation:

We call atoms of the same elements with different mass numbers isotopes.

Answer:

1, 3, 2

Explanation:

N2 + H2 → NH3

I usually find that the best way to systematically balance an equation by inspection is to start with the most complicated-looking formula and then balance atoms in the order:

(a) The most complicated formula is NH3.

(b) Balance N.

We have 1 H in NH3, but 2 N on the left. We need 2 N on the right. Put a 1 in front of N2 and a 2 in front of NH3.

1N2 + H2 → 2NH3

(c) Balance H.

We have fixed 6 H on the right, so we need 6 H on the left. Put a 3 in front of H2.

1N2 + 3H2 → 2NH3

The equation is now balanced, and the coefficients are 1, 3, 2.

Answer:

0.39L

Explanation:

Given parameters:

Initial volume of gas V₁ = 2.6L

Initial pressure on gas P₁ = 1.6atm

Final volume of gas V₂ = ?

Final pressure on gas P₂ = 10.6atm

Solution

Applying Boyle's law which states that "the volume of a fixed mass of a gas varies inversely as the pressure changes if the temperature is constant".

Mathematically;

                      P₁V₁ = P₂V₂

                      V₂ = [tex]\frac{P_{1}V_{1} }{P_{2} }[/tex]

                      V₂ =  [tex]\frac{1.6 x 2.6 }{10.6 }[/tex] = 0.39L

Answer:

Explanation:

1) Balanced chemical equation:

2) Mole ratios:

3) Proportion:

4) Solve for x:

Answer: 20 moles of O₂ are consumed when 20 moles pf SO₂ are produced.

Answer:

Explanation:

25

Answer:

4.81×10⁻⁴ g K

Explanation:

Convert atoms to moles:

7.40×10¹⁸ atoms K × (1 mol K / 6.02×10²³ atoms) = 1.23×10⁻⁵ mol K

Convert moles to mass:

1.23×10⁻⁵ mol K × (39.1 g K / mol K) = 4.81×10⁻⁴ g K

Answer: a

Explanation:

scientific notation is about how many places passed the decimial place you are moving. therefor in order to get  1,550,000,000 you would move the decimial from 1.55 over nine times to the right

Answer: a.1.55x 109

Explanation:

In the study of Physics and Mathematics, sometimes we see very large or very small numbers. In both cases, the number of digits to write is very large. There is a simple and practical way of writing such numbers without having to write many zeros, this method is known as scientific notation. In the case we use a power of 10:

1,550,000,000 = 1.55x109

Answer:

This one is easy. It's the Avogadros' Hypothesis or Avogadros' Law, where the equal volumes of gases in SAME conditions have an equal amount of molecules!

Answer:

Avagadro’s law states at constant temperature and pressure, volume is directly proportional to the number of molecules of the gas.

For example  

At STP that is standard temperature and pressure at which T = 273K and P = 1 atm

Volume occupied by 1 mole ([tex]6.022\times 10^{23}[/tex] gas molecules) of any gas is equal to 22.4L

That is

1 mole = 22.4L

2 mole = 44.8 L

3 mole = 67.2 L

So 1 mole of [tex]CO_2[/tex] gas =22.4L ([tex]6.022\times 10^{23}[/tex] gas molecules)

1 mole of [tex]H_2[/tex] gas =22.4L ([tex]6.022\times 10^{23}[/tex] gas molecules)

1 mole of [tex]Cl_2[/tex] gas =22.4L ([tex]6.022\times 10^{23}[/tex] gas molecules)

Answer:

131 K

Explanation:

The only variables are volume and temperature, so we can use Charles' Law:

V1/T1 = V2/T2

Data:

V1 = 2.00 L; T1  = 210 K

V2 =  1.25 L; T2 = ?

Calculation:

2.00/210 = 1.25/T2

Multiply each side by the lowest common denominator (210T2)

2.00T2 = 1.25 ×210

2.00T2 = 262.5

       T2 = 262.5/2.00 = 131 K

The gas was cooled to 131 K.

Answer:

its write for the first person who did it

Explanation:

Answer:

Reaction 1: 3700

Reaction 2: 3200

pt 2

Reaction 1: 0.00823

Reaction 2: 0.00397

pt 3

reaction 1: -450

reaction2: -81

Explanation:

Magnesium oxide is an ionic compound ( because it consists of a metal and a non-metal)

In ionic compounds, electrons from the outer shell exchange between the atoms so that they each get a full outer shell. Once these electrons are exchange, the atoms will become ions. One ion will have a positive charge, and the other ion will have a negative charge. The positive and negative ions then bond strongly together in a lattice structure, due to the electrostatic forces of attraction.

These electrostatic forces of attraction are very strong and require a lot of energy to break, as such the compound will have a high melting point.

__________________________________________

Now lets look at the ionic bonding between magnesium and oxygen:

In the outer shell of Magnesium, there are 2 electrons.

In the outer shell Oxygen, there are 6 electrons.

Magnesium gives it's two electrons to Oxygen, so that the Oxygen now has a full outer shell of 8 electrons. However, since Oxygen gained two electrons, it will form a negatively charged ion with a charge of -2.

Since Magnesium lost the two electrons, it's second shell (which has 8 eletrons) now becomes the outer shell. So Magnesium also now has a full outer shell. But since it has lost two electrons, it becomes a positively charged ion with a charge of + 2.

The positive Magnesium ion and negative Oxygen ion and now strongly attracted to each other, and form a strong ionic compound (magnesium oxide) with a lattice structure.

The electrostatic forces of attraction between the positive Magnesium and negative Oxygen are so strong that a lot of heat and energy are needed to break them.

Therefore magnesium oxide has a high melting point.

Answer:

9.02×10⁻¹¹ mol NH₃

Explanation:

Convert nanograms to grams:

1.56 ng NH₃ × (1 g / 10⁹ ng) = 1.56×10⁻⁹ g NH₃

Convert grams to moles:

1.56×10⁻⁹ g NH₃ × (1 mol NH₃ / 17.3 g NH₃) = 9.02×10⁻¹¹ mol NH₃

The answer is 9.02×10⁻¹¹ mol NH₃

Convert nanograms to grams:

1.56 ng NH₃ × (1 g / 10⁹ ng) = 1.56×10⁻⁹ g NH₃

Convert grams to moles:

1.56×10⁻⁹ g NH₃ × (1 mol NH₃ / 17.3 g NH₃) = 9.02×10⁻¹¹ mol NH₃

A mass of a substance in grams is numerically equal to its molecular weight. Example: A gram-mole of salt (NaCl) is 58.44 grams.

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Answer:

Carbon dioxide and water i believe. Possibly carbon monoxide.

Explanation:

The two products in the combustion reaction of hydrocarbon or fuel are carbon dioxide and water.

Combustion reactions involve the oxidation of the hydrocarbon such reactions commonly liberate large amounts of energy with carbon dioxide and water as products.

A hydrocarbon undergoes combustion to form carbon dioxide and small amounts of water but no side products are left behind in the combustion reaction.

Combustion reactions are exothermic redox reactions and usually oxidized fuel. This is often referred to as smoke. The combustion reactions are accompanied by flames but not all combustion reactions result in fires.

The combustion reactions of methane are also known to yield water and carbon dioxide. This chemical reaction can be represented by the chemical equation as follows:

CH₄  +  2O₂   →   2 H₂O + CO₂

The explosion of fireworks is also a combustion reaction as well as a redox reaction, specific ions are present in the fuel to emit a color to the flame.

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Answer:

Decrease the volume or increase the number of moles by a factor of 37.

Explanation:

If the contents are a gas,

pV = nRT

If T is constant

[tex]p \propto \dfrac{n}{V}[/tex]

There are two ways to increase the pressure inside the container.

1. Decrease the volume

If you decrease the volume by a factor of 37, the pressure will increase by the same factor.

2 Increase the number of moles

If you add 36 times the number of moles, you will have 37n moles. Increasing the amount of gas by a factor of 37 increases the pressure by the same factor.

To increase the pressure inside a container by a factor of 37 while keeping the temperature constant, the volume of the gas must be reduced to 1/37th of its original volume, as per Boyle's Law, which states that pressure and volume are inversely proportional.

Assuming the temperature is held constant, to increase the pressure inside a container by a factor of 37, you must reduce the volume of the gas. This is based on Boyle's Law, which states that, for a given mass of gas at constant temperature, the pressure of the gas is inversely proportional to its volume. This means if you want to increase the pressure inside the container, you have to decrease the volume of the container correspondingly.

For instance, if the original pressure of the gas is P, and the volume is V, to increase the pressure by a factor of 37 (making it 37P), you would need to reduce the original volume (V) to V/37. This is because P1*V1 = P2*V2, where P1 and V1 are the initial conditions and P2 and V2 are the final conditions, assuming no change in the amount or temperature of the gas.