In standard conditions, sodium is a solid.
The most abundant elemental form of sodium appears as a solid.
sodium is a silvery-white colored metal. When exsposed to air it will turn a dull white.
Sodium oxide is a soft solid at room temperature.
Sodium Oxide, or NaOH, has no oxidation state. It has a charge, which is zero. The elements that make up NaOH, however, do have oxidation states. The oxidation state of sodium (Na) is +1, and it will forever be +1 because it is impossible for it to be anything else, no matter what situation. The same applies for Hydrogen. Oxygen has an oxidation state of -2, and almost always will have an oxidation state of -2. There is one notable exception: H2O2. In this case, since the total charge of the compound is neutral and the oxidation state of Hydrogen must be +1 and, seeing as there are two hydrogens, bringing the overall charge up to 2, the oxidation state of oxygen must be -1. If it was -2, then the molecule would have an overall charge of -2.
The most likely electron configuration for a sodium ion (Na+) in its ground state is 1s2 2s2 2p6. This configuration represents the electronic structure of a sodium atom that has lost one electron to become a sodium ion, achieving a stable octet configuration similar to that of a noble gas.
The state symbol of sodium chloride (NaCl) is a white crystalline solid.
it is a solid.
if sodium is in a compound, it will not be in natural state. natural state implies that it is a pure element. ie not a compound
Sodium sulfate is a solid.
It goes from the solid state to the liquid state.
It is normally in a solid state.
Sodium plumbate has the formula Na2PbO3, while sodium plumbite has the formula Na2PbO2. The main difference between them is in the oxidation state of lead; in sodium plumbate, lead is in the +4 oxidation state, while in sodium plumbite, lead is in the +2 oxidation state.
The formula for sodium stannate is Na2SnO3, while the formula for sodium stannite is Na2SnO2. The key difference between the two is the oxidation state of tin: in stannate, tin is in the +4 state, and in stannite, tin is in the +2 state.
solid
Na+
No, sodium oxide cannot exist in aqueous state because it is an ionic compound that does not readily dissolve in water. When sodium oxide reacts with water, it forms sodium hydroxide, a water-soluble compound.
Sodium is in solid form at 20 degrees Celsius.