What amounts do you compare when measuring concentration

Answer:answer is hurricane and floods

Explanation:

your welcome ;)

Answer:

Florida is preparing for a hurricane, and California is preparing for drought conditions.  

Explanation:

A kind of storm in which the high current winds produces a circular cone mass and damages anything that comes in its way is known as a hurricane. The Florida state is producing shelters in order to develop protection in response to a hurricane.  

A condition in which an area possesses a shortage of water at the surface, atmospheric, and the ground level is known as a drought. The development of desalination plants will assist in withdrawing salt from accessible water from sea, ocean, or lake. So that the water from these sources can be utilized for drought situations. Thus, California State is spending money for the development of desalination plants in order to prepare for droughts.  

Answer:

1.5 mol.

Explanation:

Using cross multiplication:

1.0 mole of H₂ contains → 6.022 x 10²³ molecules.

??? mole of H₂ contains → 9.03 x 10²³ molecules.

∴ The no. of moles of H₂ contains (9.03 x 10²³ molecules) = (1.0 mol)(9.03 x 10²³ atoms)/(6.022 x 10²³ atoms) = 1.5 mol.

To find the total number of moles of hydrogen gas in 9.03 × 10²³ molecules, you divide the number of molecules by Avogadro's number (6.022 × 10²³ molecules/mole), resulting in approximately 1.5 moles of hydrogen gas.

To calculate the total number of moles of hydrogen gas (H₂) from the given number of molecules, we use Avogadro's number, which is 6.022 × 10²³ molecules per mole. The number of moles (n) is given by the formula:

n = {Number of molecules} ÷ {Avogadro's number}

Substituting our values, we get:

n = (9.03× 10²³ molecules ÷ 6.022 × 10²³ molecules/mole) ≈ 1.5 moles

Therefore, there are approximately 1.5 moles of hydrogen gas contained in 9.03 × 10²³ molecules of hydrogen gas.

Alkali metals and alkaline earth metals share similar chemical properties. Alkali metals have a single valence electron which they easily lose, while alkaline earth metals have two valence electrons. Alkali metals are more reactive than alkaline earth metals.

Alkali metals and alkaline earth metals share several characteristics. Both alkali metals (such as lithium, sodium, and potassium) and alkaline earth metals (such as calcium, strontium, and barium) have similar chemical properties. They are shiny, good conductors of heat and electricity, and have similar reactivity. However, alkali metals are more reactive than alkaline earth metals. Alkali metals have a single valence electron in their outermost shell which they easily lose, while alkaline earth metals have two valence electrons.

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Answer:

0.1589 mol ≅ 0.16 mol.

Explanation:

no. of moles (n) = mass/molar mass

mass of Al(OH)₃ = 12.4 g & molar mass of Al(OH)₃ = 78.01 g/mol.

∴ n = mass/molar mass = (12.4 g)/(78.01 g/mol) = 0.1589 mol ≅ 0.16 mol.

Answer:

A saturated solution

Explanation:

A saturated solution is a solution which has dissolved as much solute as it can dissolve at a given temperature. If more solutes are added, a saturated solution would not dissolve it. Such solution has reached its carrying capacity.

If the temperature changes, the solution might be able to dissolve more solutes in it.

An undersaturated solution is one in which does not contain enough dissolved solutes in it at a given temperature.

Answer:

Caffeine would require a non-polar solvent to dissolve it

Explanation:

The general rule of solubility is that "like dissolves like". Polar solvents would dissolve polar solutes and non-polar solvents would dissolve non-polar solute.

Water is a polar solvent and would readily dissolve polar compounds such as the range of ionic/electrovalent compound like NaCl and polar covalent compounds.

For non-polar solutes, compounds like dichloromethane would readily dissolve them. Both caffeine and this solvent are both organic compound and would interact readily with one another. Although this compound is slightly polar, it would readily dissolve caffeine

Partial polar nature of Caffeine make it more soluble in less polar solvent such as dichloromethane as compared to water.

Caffeine is partially polar and we know that water is more polar solvent than dichloromethane which causes caffeine more soluble in dichloromethane compared to water so we can conclude that partial polar nature of Caffeine make it more soluble in less polar solvent such as dichloromethane as compared to water.

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Answer:

[tex]\boxed{\rm \text{[ClO$_{2}^{-}$] increases}}[/tex]

Explanation:

At the beginning, you have two reactions happening:

[tex]\rm HCl + H$_{2}$O$ $\, \longrightarrow \,$ H$_{3}$O$^{+}$ + Cl$^{-}$\\\rm HClO$_{2}$ + H$_{2}$O$ $\, \rightleftharpoons \,$ H$_{3}$O$^{+}$ + ClO$_{2}^{-}$[/tex]

As you add KOH(aq), it does two things:

A) The HCl is completely ionized. The Cl⁻ does not react, but it is diluted when the volume of the solution increases. [Cl⁻] decreases.

B) The KOH reacts with the H⁺ and removes it from the solution. [H⁺] decreases.

C) When all the H⁺ from the HCl has been neutralized, the KOH starts neutralizing the H⁺ from the HClO₂. According to Le Châtelier's Principle, more HClO₂ will dissociate to replace the decreased H⁺. [HClO₂] decreases.

D) As HClO₂ reacts, it forms ClO₂⁻. [tex]\boxed{\rm \textbf{[ClO$_{2}^{-}$] increases}}[/tex]

The amount of ClO2- increases as aqueous KOH is added.

Strong acids ionize completely in solution to produce hydrogen ions.

Weak acids only ionize partially in solution to produce hydrogen ions.

When aqueous KOH is added to a mixture of HCl and HClO2, the follow occurs:

Therefore, the amount of ClO2- increases as aqueous KOH is added.

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Answer: The theories are such that if any chemical produce H+ ion then it is an acid and if the chemical produces OH- ion then it's a base.

Explanation:

sorry I am not that much knowledgeable like all of you

Answer:

Rate 1 => 1.2E-3 M/s, Rate 2 => 1.05E-3 M/s, Rate 3 => 8.9E-4 M/s

Explanation:

Rate = Δ[N₂O₅]/Δtime

Rate 1 = (1.86556 - 2310195)M/(195 - 0)s = -1.2 x 10⁻³ M/s

Same for Rates 2 & 3.

The rate of reaction can be calculated in terms of the consumption of the reactants in the reaction.

In the given equation [tex]\rm N_2O_5[/tex] has been the reactant that has been used 2 moles.

The rate of the reaction has been = [tex]\rm -\dfrac{1}{2}\;\times\;\dfrac{dN_2O_5}{dt}[/tex]

Reaction rate = [tex]\rm -\dfrac{1}{2}\;\times\;\dfrac{1.86556\;-\;2.10195}{195\;s\;-\;0\;s}[/tex]

= [tex]\rm -\dfrac{1}{2}\;\times\;\dfrac{-0.23639}{195\;s}[/tex]

= 0.0006 M/s.

Reaction rate = [tex]\rm -\dfrac{1}{2}\;\times\;\dfrac{1.48825\;-\;1.86556}{556\;s\;-\;195\;s}[/tex]

= [tex]\rm -\dfrac{1}{2}\;\times\;\dfrac{-0.416735}{361\;s}[/tex]

= 0.0005 M/s

= [tex]\rm -\dfrac{1}{2}\;\times\;\dfrac{1.25\;-\;1.48825}{825\;s\;-\;556\;s}[/tex]

= [tex]\rm -\dfrac{1}{2}\;\times\;\dfrac{-0.23825}{269\;s}[/tex]

= 0.0004 M/s.

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Answer:

Explanation:

In this case the answer would be

Water is a polar molecule with positive and negative side

Now since these negative and positives are present in the water molecule . In easy terms when a substance reacts with water .the negative part of water ( oxygen ) reacts with the positive part of the substance and the positive part of the water ( hydrogen) reacts with negative part of the substance .if you look at the reason . Water is held up by one of the strongest attraction forces available .since most substances have weaker attraction forces between them ,therefore water can easily overcome them with its forces. Thus giving it the ability to dissolve a variety of substances

Answer:

d

Explanation:

edge 2020

These are two questions and two answers.

Answers:

Explanation:

1) Balanced chemical equation (given):

2) Part A: How many moles of methane are produced when 59.6 moles of carbon dioxide gas react with excess hydrogen gas?

a) Mole ratios:

b) Proportion:

         ⇒ x = 59.6 mol CH₄ ← answer

3) Part B How many moles of hydrogen gas would be needed to react with excess carbon dioxide to produce 42.1 moles of water vapor?

a) Mole ratios:

b) Proportion:

         ⇒ x = 42.1 × 4 / 2 moles CH₄ = 84.2 mol H₂ (g) ← answer

Answer:

metal spoon

Explanation:

Metals are good conductors of heat and electricity and they have high boiling and melting points

Final answer:

A wooden spoon has a higher specific heat than a metal spoon because it requires more energy to change its temperature. Metals conduct heat better and thus heat up and cool down more quickly compared to wood, indicating a lower specific heat for the metal.

Explanation:

The specific heat of a substance is a measure of how much energy is required to raise the temperature of 1 gram of that substance by 1°C. A wooden spoon would typically have a higher specific heat than a metal spoon. This is because metals generally conduct heat better and require less energy to change their temperature compared to wood. This property is why a metal spoon heats up quickly when placed in a hot environment, feeling much warmer to the touch compared to a wooden spoon in the same conditions.

To understand which material has the higher specific heat, we can refer to the principle that objects with greater specific heat require more energy to change their temperature. When comparing a metal to wood, the metal's temperature tends to change more quickly due to its lower specific heat, thus it heats up and cools down faster than wood.

To balance the equation Fe2O3 + 3CO → 2Fe + 3CO2, we need to ensure that the number and type of atoms are the same on both sides. Using the balanced equation, we can determine that when 40.0 mol of CO reacts with Fe2O3, 1,760 g of CO2 will be produced.

To balance the equation Fe2O3 + 3CO → 2Fe + 3CO2, we need to ensure that the number and type of atoms are the same on both sides.
Fe2O3 + 3CO → 2Fe + 3CO2

Now, to determine how many grams of CO2 will be produced when 40.0 mol of CO reacts with Fe2O3, we use the balanced equation to set up a conversion factor. The stoichiometric ratio for CO2 to CO is 3:3. So, for every 3 moles of CO, 3 moles of CO2 are produced.

Therefore, using the conversion factor:
40.0 mol CO × (3 mol CO2/3 mol CO) = 40.0 mol CO2

Converting moles to grams, we can use the molar mass of CO2:
40.0 mol CO2 × (44.01 g CO2/1 mol CO2) = 1,760 g CO2

hydrogen is the most

Hydrogen is the most abundant element in the universe, making up about 90% of atoms. Helium is the second most abundant. These two elements dwarf the prevalence of all other elements combined.

The most abundant chemical element in the universe is hydrogen. Accounting for approximately 90% of atoms, hydrogen's prevalence surpasses all other elements. This elemental dominance extends to the composition of stars, including our sun, where hydrogen serves as a primary fuel for stellar processes. Following hydrogen, helium constitutes most of the remaining 10%, and all other elements appear in far lesser quantities. Hydrogen plays a significant role on Earth as well, being a part of countless compounds such as water, which is the most widespread compound of hydrogen on our planet.

The degree of certainty is high.

Answer:

The correct answer is "high".

Explanation:

Taphonomy is the science that studies how organic matter decays and becomes fossilized. Forensic taphonomy is used to estimate the characteristics of a person's death, with tests with levels of certainty depending on multiple factors. If a sample has a short PMI (Postmortem Interval), warm and humid conditions, the degree of certainty is probably high because the conditions are ideal to preserve an organic sample.

The question asks for the product structure of a reaction to be drawn using a utility. Somewhat, it isn't possible to provide a drawn response without the reaction details and the specific utility. However, in general, recognizing the reactants, the type of reaction, and consequently sketching the product guidance was given.

The current question pertains to a chemical reaction product and the drawing of its structure using a specific utility. Unfortunately, without an image of the reaction and the platform's drawing utility unattainable here, an explicit 'drawn' response isn't feasible. However, the request to not specify stereochemistry suggests that your interest is mainly in the skeletal structure.

Generally, in organic chemistry, you'd discern the reactants, identify the type of reaction (such as addition, substitution, or elimination), and consequently draw the product by connecting atoms according to the reaction rules. The stereochemistry, which refers to the three-dimensional arrangement of the atoms, isn't a concern in this case.

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Answer:

(a) Mass of gold = 0.0073223 kg.

(b) V of gold 3.79 x 10⁻⁷ m³ & ∴ V of copper = 7.438 x 10⁻⁸ m³.

(c) The density of the British sovereign coin 17,620 kg/m³.

Explanation:

(a) Find the mass of gold in the sovereign in kilograms using the fact that the number of karats = 24 (mass of gold)/(total mass).

∵ the number of karats = 24 (mass of gold)/(total mass)

the number of karats = 22-karat gold,

mass of gold = ??? g,

total mass = 7.988 g.

∴ mass of gold = (the number of karats)(total mass)/24 = (22)(7.988 g)/(24) = 7.3223 g = 0.0073223 kg.

(b) Calculate the volumes of gold and copper, respectively.

∵ Mass of coin = 7.988 g.

∵ mass of gold = 7.3223 g.

∴ mass of Cu = Mass of coin - mass of gold = 7.988 g - 7.3223 g = 0.6657 g = 0.6657 x 10⁻³ kg.

V = m/d.

where, V is the volume of the material,

m is the mass of the material,

d is the density of the material.

Density of gold = 19,320 kg/m³, mass of gold = 0.0073223 kg.

∴ V of gold = m/d = (0.0073223 kg)/(19,320 kg/m³) = 3.79 x 10⁻⁷ m³.

Density of copper = 8,950 kg/m³, mass of copper = 0.6657 x 10⁻³ kg.

∴ V of copper = m/d = (0.6657 x 10⁻³ kg)/(8,950 kg/m³) = 7.438 x 10⁻⁸ m³.

(c) Calculate the density of the British sovereign coin. kg/m³.

d = m/V.

mass of the British sovereign coin = 7.988 g = 0.007988 kg.

Volume of the British sovereign coin = V of gold + V of copper = (3.79 x 10⁻⁷ m³) + (7.438 x 10⁻⁸ m³) = 4.534 x 10⁻⁷ m³.

∴ Density of the British sovereign coin = m/V = (0.007988 kg)/(4.534 x 10⁻⁷ m³) = 17,620 kg/m³.

Based on the relationships between mass, volume and density;

The mass, volume and density of a substance are related by the formula given below:

a) Using the fact that the number of karats = 24 (mass of gold)/(total mass). kg;

the number of karats = 24 (mass of gold)/(total mass)

the number of karats = 22-karat gold,

total mass = 7.988 g.

mass of gold = (22)(7.988 g)/(24) = 7.3223 g

mass of gold = 0.0073223 kg.

(b) The volume of gold and copper are calculated thus:

mass of copper = Mass of coin - mass of gold

mass of copper = 7.988 g - 7.3223 g = 0.6657 g

mass of copper = 0.6657 x 10⁻³ kg.

From the formula above:

Thus;

Density of gold = 19,320 kg/m³, mass of gold = 0.0073223 kg.

Volume of gold = 0.0073223 kg/19,320 kg/m³

Volume of gold = 3.79 x 10⁻⁷ m³

Also,

Density of copper = 8,950 kg/m³, mass of copper = 0.6657 x 10⁻³ kg.

volume of copper = (0.6657 x 10⁻³ kg)/(8,950 kg/m³)

Volume of copper = 7.438 x 10⁻⁸ m³.

(c) the density of the British sovereign coin is then calculated using the formula:

mass of the British sovereign coin = 7.988 g = 0.007988 kg.

Volume of the British sovereign coin = volume of gold + volume of copper = (3.79 x 10⁻⁷ m³) + (7.438 x 10⁻⁸ m³) = 4.534 x 10⁻⁷ m³.

Then;

Density of the British sovereign coin = (0.007988 kg)/(4.534 x 10⁻⁷ m³)

Density of the British sovereign coin = 17,620 kg/m³.

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Answer:

Explanation:

1.The color of the powder of a mineral.

                      Answer 1 : Streak

Streak is the color displayed by a mineral in powdered form. The streak of some minerals differs from their original color.

2.The sinking of one lithospheric plate beneath another.

                     Answer 2 : Subduction

At a convergent margin, a denser lithospheric plate falls beneath the lighter one in a process called subduction. This region is called the subduction zone.

3.A process that includes both the disintegration and decomposition of surface rock material.

                    Answer 3: Weathering

Weathering is defined as the physical disintegration and chemical decomposition of rocks to form soils and sediments on the earth surface.

4.The chemical altering of the composition of the material.

                    Answer 4: Chemical weathering  

It is the decomposition or altering of earth materials chemically.

5. How much matter is in a certain amount of space; mass divided by volume.

                     Answer 5 : Density

Density is defined as the mass per unit volume.

6. The physical or mechanical breakdown of Earth's materials.

                     Answer 6: Physical weathering

Physical weathering is the disintegration of earth materials using mechanical means.

7. Movement of Earth's materials by glacial action.

                         Answer 7: Glacial erosion

This is the wearing and washing away of earth's materials by action of moving glaciers.

8. The ability of a mineral to resist scratching.

                        Answer 8: Hardness

Hardness is expressed in an ability to resist deformation and any from of abrasion

9. A type of igneous rock that forms inside the Earth.

                       Answer 9: Plutonic or intrusive igneous rocks

Igneous rocks that forms within the crust are called plutonic or intrusive igneous rocks.

10. The rock formed by the cooling and solidifying of molten rock.

                     Answer 10: Igneous rocks

Igneous rocks are rocks that formed from cooling and solidifying of molten rocks

The color of the powder of a mineral is called streak. Subduction is the sinking of one lithospheric plate beneath another. Weathering is the process that includes both the disintegration and decomposition of surface rock material.

The color of the powder of a mineral is called the streak.

The sinking of one lithospheric plate beneath another is called subduction.

The process that includes both the disintegration and decomposition of surface rock material is called weathering.

The chemical altering of the composition of a material is called chemical weathering.

The amount of matter in a certain amount of space is called density, which is determined by dividing mass by volume.

The physical or mechanical breakdown of Earth's materials is called mechanical weathering.

The movement of Earth's materials by glacial action is called glacial erosion.

The ability of a mineral to resist scratching is called hardness.

A type of igneous rock that forms inside the Earth is called intrusive igneous rock.

The rock that forms from the cooling and solidifying of molten rock is called igneous rock.

Answer:

Bromine.

Explanation:

That is bromine which is a dark red vaporous liquid with a bad smell. There are only 2 elements which are liquid at room temperature, bromine and mercury.

Final answer:

The greatest amount of ammonium carbonate is produced when reactants NH3, CO2, and H2O are used in the mole ratio of 2:1:1, ensuring an excess of water.

Explanation:

To determine the reactant quantities that would result in the greatest amount of ammonium carbonate being formed, we must look at the stoichiometry of the balanced chemical equation provided:

2NH3(g) + CO2(g) + H2O(l) → (NH4)2CO3

According to this equation, therefore, the greatest amount of ammonium carbonate will be produced when reactants are supplied in the mole ratio of 2:1:1 for NH3:CO2:H2O, respectively. Choosing reactant quantities that provide ammonia and carbon dioxide in at least this ratio, while ensuring an excess of water, would maximize production of ammonium carbonate.

Answer:

0.47dm³

Explanation

Given parameters :

Molarity of NaCl = 6.67M

Number of moles = 3.12mol

Volume of NaCl =?

Volume of NaCl = number of moles/Molarity

Volume of NaCl = 3.12mol/6.67M

Volume of NaCl = 0.47dm³

Answer:

0.468

Explanation: got it right on edge

Answer:

f

Explanation:

pressure

Answer:

D.

Explanation:

So, the right choice is: D.

D on e2020

extra words to get to 20 letters

Answer:

[tex]\boxed{\text{A. } m = 2, n = 3; \text{B. } m = 2, n = 4; \text{C. } m = 2, n = 5; \text{D. } m = 2, n = 6}[/tex]

Explanation:

The Balmer equation is

[tex]\lambda = B\left(\dfrac{n^{2}}{n^{2} -m^{2}}\right)[/tex]

where B = 364.5 nm and m = 2

Thus, the Balmer equation reduces to

[tex]\lambda = 364.5\left(\dfrac{n^{2}}{n^{2} - 4}\right)[/tex]

We will be doing four separate calculations for n, so it will be convenient to solve the equation for n.

[tex]\lambda (n^{2} -4) = 364.5n^{2}\\\\\lambda n^{2} -4\lambda = 364.5n^{2}\\\\\lambda n^{2}- 364.5n^{2} = 4\lambda \\\\ n^{2}(\lambda - 364.5) = 4\lambda \\\\ n^{2}= \dfrac{4\lambda}{\lambda - 364.5}\\\\ n= \sqrt{\dfrac{4\lambda}{\lambda - 364.5}}[/tex]

A. λ = 656.5 nm

[tex]n= \sqrt{\dfrac{4 \times 656.5}{656.5 - 364.5}} = \sqrt{\dfrac{2626}{292}} =\sqrt{8.993} = 2.999 \approx \boxed{\mathbf{3}}[/tex]

B. λ = 486.3 nm

[tex]n= \sqrt{\dfrac{4 \times 486.3}{486.3 - 364.5}} = \sqrt{\dfrac{1945}{121.8}} =\sqrt{15.97} = 3.996 \approx \boxed{\mathbf{4}}[/tex]

C. λ = 434.2 nm

[tex]n= \sqrt{\dfrac{4 \times 434.2}{434.2 - 364.5}} = \sqrt{\dfrac{1737}{69.7}} =\sqrt{24.9} = 4.99 \approx \boxed{\mathbf{5}}[/tex]

D. λ = 410.3 nm

[tex]n= \sqrt{\dfrac{4 \times 410.3}{410.3 - 364.5}} = \sqrt{\dfrac{1641}{45.8}} =\sqrt{35.8} = 5.99 \approx \boxed{\mathbf{6}}[/tex]

To determine the mass of SO₃ that can react with 3.59 mol of Fe₂O₃, we use the molar ratio from the balanced equation and the molar mass of SO₃ to find that 862 g of SO₃ are needed.

To find out how many grams of SO₃ can react with 3.59 mol of Fe₂O₃, we follow a two-step mole-mass calculation process. The balanced chemical equation Fe₂O₃ +3SO₃
ightarrow Fe₂(SO₄)₃ provides us with the molar ratio needed for this calculation. For every mole of Fe₂O₃, three moles of SO₃ are required. So, we multiply the number of moles of Fe₂O₃ (3.59 mol) by three to find the moles of SO₃needed.

Once we have the number of moles of SO₃, we then use the molar mass of SO₃ to find the mass. The molar mass of SO₃ is 80.066 g/mol. After calculating the number of moles of SO3, we can then multiply by this molar mass to get the final weight of SO₃ that can react with 3.59 mol of Fe₂O₃. Applying this method, we calculate that 862 g of SO₃ will react with 3.59 mol of Fe₂O₃.

Answer:

Explanation:

Alkenes and alkynes are unsaturated molecules, because they have, at least, two adjacent carbon atoms bonded together by either a doubler or a triple bond: - C = C -  or - C ≡ C -.

Hence, at least two carbon atoms are needed to form those double or triple bonds, while alkanes have only single bonds. The example of alkane with only one carbon atom is methane: CH₄, which is the most simple alkane.

The most simple alkene is CH₂ = CH₂, and the most simple alkyne is CH≡CH.

As you see, the very definition of alkenes and alkynes forces that those molecules must have at least two carbon atoms.

Answer:

PATHOGEN.

Explanation:

In biology, pathogen refers to any organism or particle that is capable of causing infectious diseases. Thus, all the microbes that cause diseases such as bacteria, virus, fungi, viroid,  etc are collectively known as pathogen. The entrance of pathogen into the human body usually stimulate the immune system. The immune system functions by recognizing pathogens and by capturing and destroying them.

Answer:

The pH of this solution is 3.4.

Explanation:

Consider the definition of the pH of a solution:

[tex]\displaystyle \rm pH = \log{\frac{1}{[H_{3}O^{+}]}} = - \log{[H_3O}^{+}]}[/tex],

where

The unit "M" here is the same as moles per liter.

On a scientific calculator, evaluate

[tex]\rm -\log{(3.8\times 10^{-4})}[/tex]

to find the pH of this solution.

[tex]\rm pH = -\log{(3.8\times 10^{-4})} \approx 3.4[/tex].

The pH of this solution is approximately 3.4.

Answer:

Lithium

Explanation:

An ionic bond requires one metal and one nonmetal. Out of all the choices given, Lithium is the only one that is a metal.

Answer:

ions

Explanation:

An atom that has gained or lost an electron is called an ion. Ions are charged particles that have lost or added an electron to their outermost shell. Ions are the basis of any chemical reaction. The combination of ions leads to the formation of bonds between atoms and this results in molecules and compounds.

When atoms are in their ground state, they are otherwise neutral and such would not combine chemically. It is difficult to find elements in such form naturally. Atoms that have ionized by losing or gaining electrons would freely combine with one another in order to establish a more stable configuration.