The Ionic charge of H2O is 0 because H has a +1 charge and there are two H so it equals +2 and O has a -2 charge. So they balance out to a charge of zero
It's not an ionic compound.
The Ionic charge of H2O is 0 because H has a +1 charge and there are two H so it equals +2 and O has a -2 charge. So they balance out to a charge of zero
H2O (water) is a covalent compound, as no metals are involved.
It's not an ionic compound.
no, H2O is a covalent compound
Water, or H2O, is an Covalent compound.
The Ionic charge of H2O is 0 because H has a +1 charge and there are two H so it equals +2 and O has a -2 charge. So they balance out to a charge of zero
H2O (water) is a covalent compound, as no metals are involved.
No, H2O is covalent.
It's not an ionic compound.
no, H2O is a covalent compound
Water, or H2O, is an Covalent compound.
Balanced Molecular Equation:HCl(aq) + NaOH(aq) --> NaCl(aq) + H2O(l)Complete Ionic Equation:H+ (aq) + Cl- (aq) + Na+ (aq) + OH- (aq) -->Na+ (aq) + Cl- (aq) + H2O (l)Cancel out the "spectator" ions, or ions that do not change in structure or charge (on both sides of the equation; "cancel out")Net Ionic Equation:H+ (aq) + OH- (aq) --> H2O(l)User forgot to place the yield arrows (separating products from reactants)
Phosphite has an ionic charge of -3.
The ionic charge of Californium is 3+.
In ionic chlorine compounds, the ionic charge of chlorine is -1.
These are some possible ionic equation for CuSO4 plus H2O: Cu2+ + 6 H2O --> Cu(H2O)6 Cu(H2O)62+ + H2O <--> Cu(OH)(H2O)5+ + H3O+ This makes a solution of copper sulfate weakly acidic.
'-1' It is usually written as 'OH^(-)'. Water (H2O) is in a dynamic equilibrium ; one of the H-O covalent bonds in water breaks to form H2O < == > H^(+) + OH^(-) It produces hydrogen cations (H^(+)) and hydroxide anions (OH^(-)).