What is the difference between alternating current and direct current?A. Alternating current regularly reverses direction. Direct current flows in only one direction.

B. Alternating current flows in only one direction. Direct current regularly reverses direction.

C. Direct current requires insulators, but alternating current does not.

D. Alternating current requires insulators, but direct current does not.

Answer:

• Pauli's exclusion principle

Explanation:

You can read this principle in any chemistry or physics textbook that deals with quantum numbers. It states that two electrons of an atom cannot have the same set of four quantum numbers.

As result:

• Any orbital can have a maximum of two electrons, and

• Two electrons in a same orbital have opposite spins: one will have +1/2 and the other will have -1/2.

Remember, that the quantum numbers are the numbers that identify the electrons in an atom.

• n is the principal quantum number, and can have positive integer vaules: 1, 2, 3, 4, 5, 6, 7, ...

• ℓ is the Azimuthal or angular momentum quantum number. It can have integer values from 0 to n -1: 0, 1, 2, 3, 4, ...

• mℓ is the magnetic quantum number, which can have values from -ℓ to + ℓ

• ms is the spin quantum number. which can have values +1/2 and -1/2.

In this way, Pauli's exclusion principle implies that two electrons occupying the same orbital will have equal n, ℓ, and mℓ values, meaning that their ms will be opposite: + 1/2 and −1/2.

Final answer:

The rule that no two electrons can possess the same four quantum numbers is known as the Pauli Exclusion Principle. Proposed by Wolfgang Pauli, this rule dictates that no two electrons can be in the same state within an atom. It limits the number of electrons in atomic shells and subshells, influencing the structure of atoms.

Explanation:

The rule that no two electrons can have the same four quantum numbers is known as the Pauli Exclusion Principle. These quantum numbers include: principal quantum number (n), orbital angular quantum number (l), magnetic quantum number (m), and spin quantum number (ms).

An Austrian physicist, Wolfgang Pauli, proposed this rule in 1925. This principle means that two electrons can share the same orbital if only their spin quantum numbers have different values. Since the spin quantum number can only take two values: +½ or -½, a maximum of only two electrons can occupy the same orbital. As a result, any atomic orbital can be populated by zero, one, or two electrons only.

This principle is important because it limits the number of electrons in atomic shells and subshells, and thus plays a crucial role in determining the structure of atoms and the characteristics of the elements on the periodic table.

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Atoms have no electric charge because they have an equal number of electrons and protons.

Explanation:

• Atom is the smallest unit of matter.

• It is comprised of three subatomic particles:protons, electrons, and neutrons.
• Electrons are found outside the nucleus of an atom and are negatively charged.
• Protons are found inside the nucleus of an atom and are positively charged.

• Neutrons are found inside the nucleus of an atom and have no charge.
• They are electrically neutral because they have an equal number of protons and electrons.

So from this, we can conclude that atoms have no electric charge because they have an equal number of electrons and protons. Option C is correct.

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Answer:

B) They are absorbed

Explanation:

B is correct because S waves can only travel through solid materials.  When they hit liquid materials they are absorbed in and undetectable.

Answer:

B) They are absorbed

Explanation:

When they hit the liquid core, S-waves are no longer able to be detected. While P-waves bounce off the liquid core, S-waves are absorbed at the core.