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