What is the electron configuration of a sulfur atom in the ground state?(1) 2–4 (3) 2–8–4(2) 2–6 (4) 2–8–6

Answers

Answer 1

Answer:

The sulfur atom has 16 electrons. The electronic configuration of sulfur is 2, 8, 6.

Sulfur has been the bright yellow, crystalline nonmetal. It has been present in abundance in nature. The sulfur has been used in the gunpowder, as well as fungicide, and in the vulcanization of black rubber,

The electronicconfiguration has been the filling up of electrons of an element in the atomic shells.

The order for filling the shells involves the 2,8,8,14, and so on.

The sulfur has the atomic number 16. It states that it has 16 electrons in the atom.

The electronic configuration of sulfur is as follows:

2,8,6.

The sulfur atom has 16 electrons. The electronic configuration of sulfur is 2, 8, 6.

For more information about the electronic configuration, refer to the link:

brainly.com/question/21940070

Answer 2

Answer: Sulphur in the ground state possess 16 electrons that span three shells. The electronic configuration in this case is 2-8-6 (OPTION 4)

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1. How did Dmitri Mendeleev deal with elements that had not yet been discovered?A. He left blanks for them in his periodic table, as he predicted they would be discovered. B. He gave them names and properties and placed them in the table. C. He created them in his laboratory and placed them in the table. D. He ignored them, placing them in the table and shifting others when they were discovered. 2. Which of the following elements have properties similar to those of astatine (At)? A. F, Br, I B. Ar, S, P C. F, Ar, Ne D. Na, Mg, Al 3.What is true of the ionic size of the elements in a group as one moves from top to bottom in that group? A. Ionic size stays the same within the group. B. Ionic size does not vary in any predictable way within the group. C. Ionic size decreases from top to bottom within the group. D. Ionic size increases from top to bottom within the group.

The abbreviation that represents a volume unit isa. cm3.
b. mg.
c. mm.
d. cm.

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The answer is A - cm3

How do you think the law of conservation of mass affects chemical equations?

Answers

Answer:

,dgeh

Explanation:

Plz help me i need to know how to do this!!!

Answers

Equivalent conversions:

1 atm = 760 mm Hg = 101.325 kPa

Dalton’s law is presented inthis formula, P = p1 + p2 + … +pn where p1, p2 to pn are the pressures of theindividual gases and the P is the total pressure.

Let p1 = CO2, p2 = O2 and p3 =N2

p1 = 125mmHg (1 atm/760 mmHg) =0.1645 atm

p2 = 22 kPa (1 atm/101.325 mmHg)= 0.2171 atm

P = p1 + p2 + p3

1.5atm = 0.1645 atm + 0.2171 atm+ p3

p3 = N2 = 1.1184 atm

Nuclear fission produces about one-fifth the power in the United States. An unintended positive consequences of nuclear power has been that A) a lot of power is generated. B) radioactive waste is created. C) less greenhouse gases are created. D) nuclear power plants are targets for terrorists.

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answer is C) less green house gases are created

Answer:

Explanation: i did it and it wasn't c it was b

Can the absolute energy states of the reactants (E1) and products (E2) be measured in a chemical reaction?

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no it can not the absolute energy states of the reactants (E1) and products (E2) be measured in a chemical reaction
hope it helps

Answer:

No we cannot measure absolute energy states.

Explanation:

The absolute energy state means the internal energy of any molecule, either reactant or product. We cannot measure the internal energy of any reactant or product as internal energy or absolute energy is sum of all kind of energy including kinetic energy, vibration energy etc.

However we can measure the changes in these energy during any chemical process.

In which type of solution does an equilibrium always exist?

Answers

You could argue that any solution with water in it has an equilibrium in it of some sort. If a solution is over saturated there is an equilibrium between the dissociated and solid solute (for example NaCl(s)⇄Na⁺(aq)+Cl⁻(aq) when in water). Even if the solution is not over saturated, water always has the reaction 2H₂O(l)⇄H₃O⁺(aq)+OH⁻(aq) since water can act as both an acid and a base (this reaction is also always at equilibrium and the equilibrium constant is 1×10⁻¹⁴).

Since we usually ignore the autoionization of water (unless dealing with acid base chemistry), I think the answer your teacher is looking for is over saturated solutions.

I hope this helps. Let me know if anything is unclear or if you need a different answer.

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