During a scientific investigation, which step will a scientist perform first?

The number of valence electrons that a neutral atom of aluminum has is 3 valence electrons.

What are valence electrons?

Valence electrons are those electrons in the outermost parts of elements that can be combined or loned to other elements during chemical reactions. Aluminum has three electrons in the valence shell.

The total number of electrons that aluminum has is 13 and the 3P1 shell has three electrons. So, this is the number of valence electrons.

Learn more about valence electrons here:

brainly.com/question/371590

#SPJ6

Answer:

Aluminum has 13 electrons in a neutral atom. The 1S2, 2S2 and 2P6 shells are full, and so is the 3S2. The 3P1 shell has one electron in it (in Al's neutral atom) and that gives aluminum one lone valence electron and two "semi-valence" electrons which can be loaned out.

Explanation:

Ionization energy is the energy required to remove the losely bounded electron from an isolated gaseous atom of an element, so if an electron is more attracted towards nucleus it will require higher energy. On increasing size of an atom the electrons fall distant from the nucleus and will observe less effective nuclear energy hence less amount of energy will be required to remove them.

On moving down the group, the size of elements increases hence effective nuclear charge will decrease thus ionization energy will decrease.

Elements at the bottom of the periodic table have lower ionization energies compared to their group or family partners at the top of the periodic table because, they have more energy levels.  

Ionization energy decreases down the group as less energy is required to remove outer most electrons as energy levels increases.

Further Explanation

Ionization energy

• Ionization energy is the energy required to remove outermost electrons from the outermost energy level. Energy is required to remove an electron from an atom.
• The closer an electron is to the nucleus the more energy is required, since the electron is more tightly bound to the atom thus making it more difficult to remove, hence higher ionization energy.
• Ionization energy increases across the periods and decreases down the group from top to bottom.  
• Additionally, the ionization energy increases with subsequent removal of a second or a third electron.

First ionization energy  

• This is the energy required to remove the first electron from the outermost energy level of an atom.
• Energy needed to remove the second electron to form a divalent cation is called the second ionization energy.

Trend in ionization energy  

1. Down the group (top to bottom)

• Ionization energy decreases down the groups in the periodic table from top to bottom.
• It is because as you move down the group the number of energy levels increases making the outermost electrons get further from the nucleus reducing the strength of attraction to the nucleus.
• This means less energy will be required compared to an atoms of elements at the top of the groups.

2. Across the period  (left to right)

• Ionization energy increases across the period from left to right.
• This can be explained by an increase in nuclear energy as extra protons are added to the nucleus across the period increasing the strength of attraction of electrons to the nucleus.
• Consequently, more energy is needed to remove electrons from the nucleus.

Keywords: Ionization energy, periodic table, energy levels, electrons

Learn more about

• Ionization energy: brainly.com/question/2575230
• Chemical families: brainly.com/question/1358941
• Trend in ionization energy: brainly.com/question/11401572
• First ionization energy: brainly.com/question/3944005

Level: High school  

Subject: Chemistry  

Topic: Periodic table and chemical families  

Sub-topic: Ionization energy