Ionic compounds are generally solids at room temperature.
Ionically bonded compounds are usually solid at room temperature. (Ionic bonds themselves are non-material and do not have any of the states of matter.)
The usual state of an ionic compound at room temperature and pressure is usually solid because the ions in the ionic compound are held by strong ionic bonds that requires a large amount of energy to overcome these bonds.
The usual state of a covalent compound (at room temperature) is liquid.
At room temperature and pressure there are gaseous, liquid and solid molecular covalent compounds. Examples Gas: methane, CH4, ethylene, C2H4 Liquid benzene, C6H6, ethanol, C2H5OH Solid: naphthalene, C10H8 The giant molecule covalent compounds such as silica are solids
The usual state of oxygen and hydrogen: they are gases at room temperature.
Ionically bonded compounds are usually solid at room temperature. (Ionic bonds themselves are non-material and do not have any of the states of matter.)
I am sure it is in a solid state.
The usual state of an ionic compound at room temperature and pressure is usually solid because the ions in the ionic compound are held by strong ionic bonds that requires a large amount of energy to overcome these bonds.
The usual state of a covalent compound (at room temperature) is liquid.
At room temperature and pressure there are gaseous, liquid and solid molecular covalent compounds. Examples Gas: methane, CH4, ethylene, C2H4 Liquid benzene, C6H6, ethanol, C2H5OH Solid: naphthalene, C10H8 The giant molecule covalent compounds such as silica are solids
The usual state of oxygen and hydrogen: they are gases at room temperature.
The usual state of oxygen and hydrogen: they are gases at room temperature.
liquids and gasesare the usual states for a covalent bond at room temperature.
liquids or gases
Asia is huge. There is no overall usual temperature.
The usual table salt, sodium chloride, is definitely ionic, since it has one of the more electropositive elements with one of the more electronegative elements. In chemistry, salt refers to many compounds, but they have some similar traits.
In most compounds oxygen will have an oxidation state of -2. The only exceptions are peroxides (-1), superoxides (-1/2), and compounds in which oxygen bonds with fluorine (+1 or +2).