CHEMISTRY HIGH SCHOOL

Magnesium is an alkaline earth metal with an atomic number of 12. It’s in the third row in the periodic table. Which expression shows one way to find the number of valence electrons in one atom of magnesium?

Answers

Answer 1

Answer:

Answer:

group # = # valence electrons

group 2= 2 valence electrons

Explanation:

Mg is in group #2 and subsequently has 2 valence electrons (electrons on the outermost shell)

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Which of the following is a heterogeneous mixture?A. Oil and Vinegar
B. Air
C. Milk
D. Vinegar in water

Answers

Answer:

Explanation:

b/c air is not seen by eye

Which list includes elements with the most similar chemical properties? 1.Br, Ga, Hg 2. Cr, Pb, Xe 3. O, S, Se 4. N, O, F

Answers

The list which includes elements with the most similar chemical properties is; Choice 3: O, S, Se

First, we must know:

Elements are arranged in 7 Periods and 18 groups in the periodic table.

Additionally, Elements in the same group of the periodic table often have similar chemical characteristics as a result of equal number of Valence electrons.

By considering Choices individually;

For Choice 1: (Br, Ga and Hg)

Bromine is a member of Group 17, Gallium is a member of Group 13 and Mercury is a member of Group 12.

Bromine is a member of Group 17, Gallium is a member of Group 13 and Mercury is a member of Group 12.All three elements belong to different groups. In essence, they do not show similar chemical properties.

For Choice 2: (Cr, Pb and Xe)

The elements belong to different groups of the periodic table and consequently, they do not show similar chemical properties.

For Choice 3: (O, S and Se)

Oxygen, Sulfur and Selenium are all members of Group 16(6)

Since, all three elements belong to same group. In essence, they will show similar chemical properties.

For choice 4: (N, O and F)

The elements belong to different groups of the periodic table and consequently, they do not show similar chemical properties.

Ultimately, the correct answer is Choice 3.

brainly.com/question/12001655

Answer: The correct answer is Option 3.

Explanation:

Elements are distributed in 7 Periods and 18 groups in a periodic table.

Elements which belong to same group show similar chemical properties because of the same number of valence electrons.

For the given options:

Option 1: Br, Ga and Hg

Bromine is present in Group 17, Gallium is present in 13 and Mercury is present in Group 12.

As, all the three elements belong to different groups. So, they do not show similar chemical properties.

Option 2: Cr, Pb and Xe

Chromium is present in Group 6, Lead is present in Group 14 and Xenon is present in Group 18.

As, all the three elements belong to different groups. So, they do not show similar chemical properties.

Option 3: O, S and Se

Oxygen, Sulfur and Selenium are present in Group 16.

As, all the three elements belong to same group. So, they will show similar chemical properties.

Option 4: N, O and F

Nitrogen is present in Group 15, Oxygen is present in Group 16 and Fluorine is preset in Group 17.

As, all the three elements belong to different groups. So, they do not show similar chemical properties.

Hence, the correct answer is Option 3.

Potassium has nineteen protons. how many electrons does a neutral potassium atom have? a. 0
b. 17
c. 19
d. more information is needed to figure this out.

Answers

Answer:

c. 19

Explanation:

Potassium is a chemical element of the periodic table whose chemical symbol is K, whose atomic number is 19. It is an alkaline metal of white-silver color, which abounds in nature in the elements related to salt water and other minerals. It oxidizes rapidly in air, is very reactive, especially in water, and chemically resembles sodium. It is an essential chemical element.

The K having an atomic number of 19 means that it has 19 protons and in normal conditions for a neutral atom it will have 19 electrons, and being one step away from argon gas makes it extremely unstable.

It has 19 electrons. I hope this helps.

Write a chemical equation for the following decomposition reaction.Nickel(II) hydroxide(s) decomposes to produce nickel(II) oxide(s) and water.

Answers

the chemical equation will be Ni(OH)2(s)------>heat---> NiO(s) + H2O(g)
we know that the heat supplied to decompose the compound.In the result the product H2O is assumed to be in the vapor state so that is gas.

hope it helps

Final answer:

The decomposition of Nickel(II) hydroxide produces Nickel(II) oxide and water. The chemical equation is: Ni(OH)2 (s) → NiO (s) + H2O (l).

Explanation:

The decomposition reaction of Nickel(II) hydroxide into Nickel(II) oxide and water can be written as follows: Ni(OH)2 (s) → NiO (s) + H2O (l) . In this reaction, solid Nickel(II) hydroxide decomposes into solid Nickel(II) oxide and liquid water. It’s important to remember that in these reactions, a single, complex reactant breaks down into multiple, simpler products.

Learn more about Decomposition Reaction here:

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An electron in a hydrogen atom moves from level 3 to level 1. In a second hydrogen atom, an electron drops from level 2 to level 1. Which statement describes the most likely result?The first atom emits light with more energy.
The second atom emits light with more energy.
The first and second atoms absorb energy without emitting light.
The first and second atoms emit light with the same amount of energy.

Answers

The correct option is this: THE FIRST ATOM EMITS LIGHT WITH MORE ENERGY.

In the question given above, the level 1 mentioned in the question refers to the ground state of the electrons while level 2 and level 3 refer to excited states of hydrogen electrons. When an atom is in an excited state, it possess more energy and it is unstable, thus, it tends to return to the ground state after sometime to attain stability. As the atom return to the ground state, it loses its energy by emitting light. The higher the level of excitation, the more the light that will be emitted when the atom is returning to the ground state. Thus, an atom returning to the ground state from level 3 has more energy and will emit more light when returning to the ground state than an electron in level 2.

The first atom emits light with more energy.

Which statement correctly describes the phosphate ion, PO3-/4?It is composed of one phosphorus atom and four oxygen atoms covalently bonded together, and there is a –3 charge distributed over the entire ion.

It is composed of one phosphorus atom and four oxygen atoms covalently bonded together, and there is a –3 charge on the phosphorus atom.

It is composed of one phosphorus atom and four oxygen atoms ionically bonded together, and there is a –3 charge distributed over the entire ion.

It is composed of one phosphorus atom and four oxygen atoms ionically bonded together, and there is a –3 charge on the phosphorus atom.

Answers

B is not the correct answer. The -3 charge is distributed over the entire ion, so the correct answer is A.

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