Base! so Negative!
Those are chemical formulas. NH4 is the ammonium polyatomic ion, and PO4 is the phosphate polyatomic ion. Ammonium has a +1 charge and phosphate has a -3 charge.
Sodium Phosphate why because you first would separate Na or sodium being a metal and the charge of it being +1 or the oxidation number then PO4 is a compound being Phosphate charge -3 then all you would do is criss cross them to find name of compound simply it be Sodium and Phosphate
The compound with formula Na3PO4 is named "sodium phosphate", "trisodium phosphate", "sodium ortho-phosphate", or "trisodium ortho-phosphate".
Sodium phosphide
Sodium phosphate is available in different forms with varying amounts of phosphate. A common form, monobasic sodium phosphate, contains about 1.3 milliequivalents (meq) of phosphate per milligram of sodium phosphate. In a different form, dibasic sodium phosphate, there are about 2.16 meq of phosphate per milligram of sodium phosphate.
Sodium has a single positive charge (+), whilst phosphate ions have a 3- charge. To balance out the charges, three sodium ions are needed, so the formula will be Na3PO4.
Those are chemical formulas. NH4 is the ammonium polyatomic ion, and PO4 is the phosphate polyatomic ion. Ammonium has a +1 charge and phosphate has a -3 charge.
Sodium phosphate is an ionic compound that dissociates into sodium ions and phosphate ions, both of which can carry an electric charge. Therefore, sodium phosphate is conductive in solution because the ions are able to move and carry electric current.
The ionic compound formed from NaH2PO4 is sodium dihydrogen phosphate. In this compound, the sodium ion has a +1 charge, and the dihydrogen phosphate ion (H2PO4-) has a -1 charge.
Sodium Phosphate why because you first would separate Na or sodium being a metal and the charge of it being +1 or the oxidation number then PO4 is a compound being Phosphate charge -3 then all you would do is criss cross them to find name of compound simply it be Sodium and Phosphate
three sodium ions
The compound with formula Na3PO4 is named "sodium phosphate", "trisodium phosphate", "sodium ortho-phosphate", or "trisodium ortho-phosphate".
The charge for Na3PO4 is -1. This is because each sodium ion (Na+) has a charge of +1 and each phosphate ion (PO4 3-) has a charge of -3. By combining three sodium ions with one phosphate ion, the overall charge of the compound becomes -1.
Sodium phosphide
The valency of sodium phosphate is determined by the charges of the individual ions in the compound. Sodium (Na) is a group 1 element with a valency of +1, while phosphate (PO4) has a charge of -3. To balance the charges in the compound, three sodium ions (each with a valency of +1) are needed for every one phosphate ion (with a valency of -3). Therefore, the valency of sodium phosphate is +1 for sodium and -3 for phosphate.
The ions that are present in the solution of sodium phosphate is the sodium ions and the phosphate ions. The sodium ion has +3 charge while the phosphate ion has the -3 charge.
Sodium phosphate is available in different forms with varying amounts of phosphate. A common form, monobasic sodium phosphate, contains about 1.3 milliequivalents (meq) of phosphate per milligram of sodium phosphate. In a different form, dibasic sodium phosphate, there are about 2.16 meq of phosphate per milligram of sodium phosphate.