Physics, asked by alliel24, 3 months ago

Bromine and potassium Show Electron Transfer between ions with Lewis Dot Structures

Answers

Answered by abcd17867
1

Answer:

Therefore, if Bromine is in series 17, 17-10 is 7, so Bromine has 7 valence electrons. The electron dot diagram to the left depicts the number of valence electrons bromine has. The dots are arranged in a specific pattern to show how many valence electrons Bromine has.

Explanation:

I'm not really sure if you're interested in the electron dot diagram of the potassium and bromine atoms, or of potassium bromide,

KBr

, so I'll show you both.

You can use this example to find the electron dot diagram of hydrogen bromide,

HBr

.

In order to draw an atom's electron dot diagram, you need to know two things

the atom's chemical symbol

the number of valence electrons it has

Start with potassium,

K

, which is located in group 1, period 4 of the periodic table. Potassium's electron configuration looks like this

[

K

]

:

1

s

2

2

s

2

2

p

6

3

s

2

3

p

6

4

s

1

As you can see, potassium has one valence electron located on the fourth energy level in the 4s-orbital.

This means that its electron dot diagram will feature its chemical symbol and one dot, usually placed above the symbol.

Br

, is located in group 17, period 4 of the periodic table. Its electron configuration looks like this

[

Br

]

:

1

s

2

2

s

2

2

p

6

3

s

2

3

p

6

4

s

2

4

p

5

Bromine has seven valence electrons, all located on the fourth energy level in the 4s and 4p-obitals.

This means that its electron dot diagram will feature its chemical symbol surrounded by seven dots

When potassium and bromine come together, the more electronegative bromine will snatch that solitary valence electron from the potassium atom.

This will lead to the formation of the potassium cation,

K

+

, and the bromide anion,

Br

.

You draw the electron dot diagram by using the charges of the cation and

The resulting ions are placed in between square brackets. Notice that the valence electrons remain visible.

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