the photosynthetic process= 6 CO2 + 6 H2O --> C6H12O6 + 6 O2
The net ionic equation has only the species involved in the chemical reaction.
CsOH is Caesium hydroxide. Like other Grouop ;1; metals it is an IONIC Molecular Compound. Ionic because the caesium has ionised to Cs^+(OH^-) Molecular because is it a complete chemical entity in its own right Compound because it is a combination of three elements.
The compound no, is interrogated into other chemicals and mineral compositions, therefore it must be eligible to be formed on Earth, which concludes that the compound no is Molecular.
Ionic Compound is There two opposite charge that attracts to each other (+) (-) they transfer electrons to each other . METALS + NON- METALS = IONIC COMPOUND-madlakerz zarceus@yahoo.com
There isn't one as these two compounds do not react with each other.
The net ionic equation has only the species involved in the chemical reaction.
CsOH is Caesium hydroxide. Like other Grouop ;1; metals it is an IONIC Molecular Compound. Ionic because the caesium has ionised to Cs^+(OH^-) Molecular because is it a complete chemical entity in its own right Compound because it is a combination of three elements.
The compound no, is interrogated into other chemicals and mineral compositions, therefore it must be eligible to be formed on Earth, which concludes that the compound no is Molecular.
Ionic Compound is There two opposite charge that attracts to each other (+) (-) they transfer electrons to each other . METALS + NON- METALS = IONIC COMPOUND-madlakerz zarceus@yahoo.com
There isn't one as these two compounds do not react with each other.
I'm pretty sure it depends on what kind of molecular compounds. Salts and other ionic bonded molecules break down in water.
The simplest description is that it is ionic, and the argument is that the difference in electronegativity causes a full transfer of electrons. It is high melting solid and certainly i not molecular. As with many metal oxides the real bonding is somewhere between ionic and covalent, and this is particularly true for metals other than those in group1 and 2. I personally do not like the categorisation of compounds into ionic and molecular. Many macro crystalline solids are covalent.
Molecular compounds are commonly formed by hydrogen. Look at sugar: C6H12O6 Look at natural hydrogen compounds: H2 I'm sure under certain circumstances hydrogen may form an ionic compound with other elements, but you will never find it in nature. On the contrary--acids are ionic compounds and most release a proton (H+) to the aqueous solution.
Both. The ClO4 (i.e. the perchlorate) is a covalently bonded molecule that carries an overall charge of 1-. The Na (i.e. the sodium) is a single atom with an overall charge of 1+. The connection between the sodium and the perchlorate is an ionic bond since one is 1+ and the other is 1-.
Hydrogen gas (H2) is a covalent compound. Any 2 of the same atoms bonded with each other is covalent.
its ionic, its cation(first letter) is a metal making it ionic
CO is molecular