FePO4 PbO2 PbSO4 Cul Sn(SO4)2 SeCl2 Fe(CN)2 Mg(ClO2)2 Na3P Rb2CO3 I2O7 BeCO3 NaCH3CO2 AsF3 Mg(NO2)2 (NH4)2S

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FePO4 PbO2 PbSO4 Cul Sn(SO4)2 SeCl2 Fe(CN)2 Mg(ClO2)2 Na3P Rb2CO3 I2O7 BeCO3 NaCH3CO2 AsF3 Mg(NO2)2 (NH4)2S P4O10 FeSO3 Cu(OH)2 KMnO4 SF6 ammonium acetate strontium chromate sodium permanganate potassium nitrite magnesium phosphate silicon tetrabromide diarsenic pentoxide aluminum oxide iron(II) sulfide tin(IV)carbonate copper(I) sulfite copper(II)nitrate lithium chlorate lead(IV)iodide iron(II) sulfide arsenic pentafluoride copper(I)acetate tin(II)phosphide copper(II)nitrate tin(IV)oxide sodium cyanide lead(II)phosphate rubidium sulfate copper(II) oxide iron(II)hydroxide calcium phosphate beryllium cyanide barium hydroxide zinc hypochlorite lead(IV)perchlorate aluminum telluride ammonium sulfate aluminum dichromate

The Correct Answer and Explanation is:

Here are the correct names for the given chemical formulas:

  • FePO4 – Iron(III) phosphate
  • PbO2 – Lead(IV) oxide
  • PbSO4 – Lead(II) sulfate
  • CuI – Copper(I) iodide
  • Sn(SO4)2 – Tin(IV) sulfate
  • SeCl2 – Selenium dichloride
  • Fe(CN)2 – Iron(II) cyanide
  • Mg(ClO2)2 – Magnesium chlorite
  • Na3P – Sodium phosphide
  • Rb2CO3 – Rubidium carbonate
  • I2O7 – Diiodine heptoxide
  • BeCO3 – Beryllium carbonate
  • NaCH3CO2 – Sodium acetate
  • AsF3 – Arsenic trifluoride
  • Mg(NO2)2 – Magnesium nitrite
  • (NH4)2S – Ammonium sulfide
  • P4O10 – Tetraphosphorus decoxide
  • FeSO3 – Iron(II) sulfite
  • Cu(OH)2 – Copper(II) hydroxide
  • KMnO4 – Potassium permanganate
  • SF6 – Sulfur hexafluoride
  • Ammonium acetate – NH4C2H3O2
  • Strontium chromate – SrCrO4
  • Sodium permanganate – NaMnO4
  • Potassium nitrite – KNO2
  • Magnesium phosphate – Mg3(PO4)2
  • Silicon tetrabromide – SiBr4
  • Diarsenic pentoxide – As2O5
  • Aluminum oxide – Al2O3
  • Iron(II) sulfide – FeS
  • Tin(IV) carbonate – Sn(CO3)2
  • Copper(I) sulfite – Cu2SO3
  • Copper(II) nitrate – Cu(NO3)2
  • Lithium chlorate – LiClO3
  • Lead(IV) iodide – PbI4
  • Arsenic pentafluoride – AsF5
  • Copper(I) acetate – CuC2H3O2
  • Tin(II) phosphide – Sn3P2
  • Copper(II) nitrate – Cu(NO3)2
  • Tin(IV) oxide – SnO2
  • Sodium cyanide – NaCN
  • Lead(II) phosphate – Pb3(PO4)2
  • Rubidium sulfate – Rb2SO4
  • Copper(II) oxide – CuO
  • Iron(II) hydroxide – Fe(OH)2
  • Calcium phosphate – Ca3(PO4)2
  • Beryllium cyanide – Be(CN)2
  • Barium hydroxide – Ba(OH)2
  • Zinc hypochlorite – Zn(ClO)2
  • Lead(IV) perchlorate – Pb(ClO4)4
  • Aluminum telluride – Al2Te3
  • Ammonium sulfate – (NH4)2SO4
  • Aluminum dichromate – Al2(Cr2O7)3

Explanation

These names follow the standard nomenclature rules for ionic and covalent compounds. Ionic compounds consist of a metal and a nonmetal, where the metal maintains a charge indicated by Roman numerals if it has multiple oxidation states. Covalent compounds, composed of nonmetals, use prefixes like tetra and penta to indicate the number of atoms. Some compounds, such as sodium acetate and ammonium sulfate, have polyatomic ions that retain their traditional names. The correct identification of oxidation states ensures accurate naming, distinguishing iron(II) from iron(III) and tin(II) from tin(IV). Applying these principles consistently provides clear, universally understood chemical communication across disciplines.

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