If a water Molocule is underground, what would it have to do to get filtered into a lake?

Answers

Answer 1

Answer: The water that travels underground will carry it to some water source

Answer 2

Answer: The underground water would become run off water so it could potentially run off into the lake.

i hope this helps

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write equations to show the chemical processes which occur when the first ionization and the second ionization energies of lithium are measured?

Answers

Answer:

First ionization of lithium:

$\text{Li}\;(g)\to \text{Li}^(+) \; (g) + \text{e}^(-)$ .

Second ionization of lithium:

$\text{Li}^(+)\;(g) \to\text{Li}^(2+) \;(g) + \text{e}^(-)$ .

Explanation:

The ionization energy of an element is the energy required to remove the outermost electron from an atom or ion of the element in gaseous state. (Refer to your textbook for a more precise definition.) Some features of the equation:

Start with a gaseous atom (for the first ionization energy only) or a gaseous ion. Write the gaseous state symbol $(g)$ next to any atom or ion in the equation.
The product shall contain one gaseous ion and one electron. The charge on the ion shall be the same as the order of the ionization energy. For the second ionization energy, the ion shall carry a charge of +2.
Charge shall balance on the two sides of the equation.

First Ionization Energy of Li:

The products shall contain a gaseous ion with charge +1 $\text{Li}^(+)\;(g)$ as well as an electron $\text{e}^(-)$ .
Charge shall balance on the two sides. There's no net charge on the product side. Neither shall there be a charge on the reactant side. The only reactant shall be a lithium atom which is both gaseous and neutral: $\text{Li}\;(g)$ .

Hence the equation: $\text{Li}\;(g) \to \text{Li}^(+)\;(g) + \text{e}^(-)$ .

Second Ionization Energy of Li:

The product shall contain a gaseous ion with charge +2: $\text{Li}^(2+)\;(g)$ as well as an electron $\text{e}^(-)$ .
Charge shall balance on the two sides. What's the net charge on the product side? That shall also be the charge on the reactant side. What will be the reactant?

The equation for this process is $\text{Li}^(+) \; (g) \to \text{Li}^(2+)\;(g) + \text{e}^(-)$ .

Final answer:

The first ionization energy of lithium is represented by the equation: Li(g) -> Li+(g) + e-, with an energy of +54.4 eV. The second ionization energy is represented by the equation: Li+(g) -> Li2+(g) + e-, with an energy of 30.6 eV. These equations demonstrate the process of ionization.

Explanation:

The ionization energy of an element is the energy required to remove an electron from a gaseous atom or ion. The first ionization energy of lithium is represented by the equation: Li(g) -> Li+(g) + e-, the energy required for this process is +54.4 eV.

The second ionization energy refers to the energy required to remove the second electron. For lithium, the second ionization energy is represented by the equation: Li+(g) -> Li2+(g) + e-, the energy needed for ionizing the second electron is 30.6 eV.

The equations represent the processes which occur when the first ionization and the second ionization energies of lithium are measured.

Learn more about Ionization Energies of Lithium here:

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The modern periodic table is arranged in order of increasing _____________

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Mendeleev arranged the elements into rows in order of increasing mass so .. In the modern periodic table the elements are arranged by increasing atomic .
Answer: atomic

Name the 5 types of chemical reactions

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There are way more than 5 but I will list the ones I know:

Reaction with acid

Reaction with water

Combustion/Flammability

Combination

Redox

Isomerization

An atom with atomic number of 6 would have how many protons?

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Answer:

Explanation:

Any atom with the atomic number 6 is carbon and has 6 protons

Answer: The answer is 6 protons

Explanation: The reason being is that for every atom there should be a proton

What do chemical equations show?

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They show basically the chemical reaction of elements broken down into each element and their quantity, and how the elements bond to form the compound.

What do solutions and colloids have in common

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well ... there are sm common things between solutions and colloids

solutions even and fully mixed together and so are colloids

when we let solutions and colloids settle down both of them do not have boundaries ... the particles of colloids and solutions do not settle down

Both are liquids. Both will pass through filters without seperation.

You can see through a solution, as the ions of the solute are dissolved. A colloid is a suspension of insoluble ultra microscopic particles or large molecules in water or other liquid, kept in suspension by Brownian motion.

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