Magnesium (Mg) is atomic number 12, so it has 12 electrons. They are configured as follows:
1s2 2s2 2p6 3s2, or in an orbital diagram ^v ^v ^v^v^v ^v
There is really nothing to diagram. Magnesium plus oxygen becomes magnesium oxide plus energy.
[well you would show the 2 diffrent particle (oxygen and magnesium) with 1 magnesium particle and 2 oxygen ones attached to it . this is known as MgO2] i believe it is MgO as the electron number is too big to support 2 molecules of oxygen
Hydrogen, carbon, nitrogen, oxygen, sodium, magnesium, phosphorus, a bit of sulfur for the amino acid side-chains, chlorine, potassium, calcium, iron, iodine; and another group called trace elements include lithium, fluorine, chromium, manganese, zinc, and just a touch of molybdenum - in that 'Periodic Table" order.
Fluorine, Chlorine, Iodine, and Astatine. You can find this out just from looking at a periodic table. (Electrons are what create the properties of atoms). Because of electrons and how they are placed around an atom all of the elements in the same group on the periodic table (vertical column) share the same properties. If you want to learn more as to why this is the case look up more about electrons.
you must plot out the element like protonéatomic number by using the bhor diagram
There is really nothing to diagram. Magnesium plus oxygen becomes magnesium oxide plus energy.
The orbital diagram for MAgnesium is
What is the chemical formula for Mg Br in lewis dot diagram form?
See the link below for a diagram.
its Hydrochloric Acid + Magnesium = Magnesium Chloride + Hydrogen... the Particle Diagram for this is two big cirlces next to 3 littlish squares... + 6 big triangles and 250 tiny circles in a 10cmX10cm square... Well Heres your homework done.
it will look like a normal particle diagram with all those circles!
A diagram showing only outer energy level electrons is called a periodic table is false. A diagram showing only outer energy level electrons is called a electron dot diagram.
The reaction is: Mg + 2HCL = MgCl2 + H2
The diagram shows four gas-jars. Each contains a different gas. Burning magnesium is put into each jar. air,exhailed air, nitrogen, oxagen
[well you would show the 2 diffrent particle (oxygen and magnesium) with 1 magnesium particle and 2 oxygen ones attached to it . this is known as MgO2] i believe it is MgO as the electron number is too big to support 2 molecules of oxygen
a frequency diagram.
a frequency diagram.