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since we can't organize the periodic table like Mendeleev did, we suggested...

Dion and Allegra's Periodic Table of the Elements

Lithium

Density: 0.53 g/ml

Conducts Electricity

Density: .087 g/ml

Conducts Electicity

Sodium

Density: 0.97 g/ml

Conducts Electicity

Magnesium

Density: 1.7 g/ml

Conducts Electricity

Beryillium

Density: 1.8 g/ml

Conducts Electircity

Aluminum

Density: 2.7 g/ml

Conducts Electiricity

Carbon

Density: 2.2 g/ml

Poor Conductor

Boron

Density: 2.3 g/ml

Poor Conductor

Silicone

Density: 2.4 g/ml

Poor Conductor

Hydrogen

Density: .00010 g/ml

Does not Conduct Electricity

Nitrogen

Density: .0013 g/ml

Does not condcut electricity

Oxygen

Density: .0014 g/ml

Does not conduct Electriticity

Flourine

Density: .0017

Does not Conduct electricity

Chlorine

Density: .0032

Does not Conduct electricity

Phosphorous

Density: 1.8 g/ml (yellow)

2.2 g/ml (red)

Does not Conduct electricity

Sulfur

Density: 2.0 g/ml

Does not Conduct electricity

So you see...

Our periodic table is arranged by density vertically,

but by conductivity horizontally!

We chose this method of organization because...

density determines the amount of mass in each element, which is important to know when conducting experiments!

Also, elements are constantly gaining protons and losing electrons, so we need to know how conductive the element is.

the end!

Potassium

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