The naming system for polyatomic ions with halogens is based on the number of oxygens present.
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Clutch Prep = Textbook specific videos to help you pass your toughest science classes.

1. Understanding Matter
2. Classifications of Matter
3. Volume, compressibility and viscosity of phases of matter
4. Homogeneous vs Heterogeneous Mixtures
5. Physical vs Chemical Changes
6. Understanding Scientific Notation
7. Precision vs Accuracy
8. Understanding Standard Deviation
9. Understanding Metric Prefixes
10. Using the Metric Prefix Chart
11. Determining significant figures
12. Understanding calculations with Significant Figures
13. Understanding Temperature and Heat
14. Kelvins, Celsius and Fahrenheit
15. Understanding Unit Conversions
16. Examining Dimensional Analysis
17. Understanding Density
18. Classification of Elements in the Periodic Table
19. The Groups of the Periodic Table
20. Phases of the Elements in the Periodic Table
21. The Reason for Negative and Positive Ions
22. Cations as Type I Metals vs Type II Metals
23. Nonmetals and anion formation
24. Understanding and Recognizing Element Symbols
25. Discussing the Monoatomic Elements
26. Discussing the Diatomic and Polyatomic Elements
27. Understanding Atomic Mass & Isotopes
28. Calculating the average mass of an element
29. Avogadro’s Number, Moles, Molecules & Atoms
30. Atoms to Moles to Grams
31. Molecules to Moles to Grams
32. Discussing Atomic Structure
33. Discussing Atomic Number & Atomic Mass
34. The Conservation of Matter
35. Law of Definite Proportions
36. Law of Multiple Proportions
37. Explanation for Bond Formation
38. Understanding an Ionic Bond
39. Understanding a Covalent Bond
40. Understanding a Metallic Bond
41. Understanding the Ionic Bonding Model
42. Understanding the Polyatomic Ions
43. The 4 Characteristics of Polyatomic Ions with Halogens
44. Naming System for Polyatomic Ions with Halogens
45. Understanding how Ionic Compounds are formed
46. Rules for Naming a Binary Ionic Compound
47. Understanding the Base Name of the nonmetal
48. Rules for naming Ionic Compounds with polyatomics
49. Rules for Naming Ionic Hydrates
50. Rules for Naming Molecular Compounds
51. Rules for Naming Binary Acids
52. Rules for Naming Oxyacids
53. Empirical Formula vs Molecular Formula
54. Understanding Combustion Analysis
55. Understanding the difference between Atomic Mass & Molecular Mass
56. Understanding Mass Percent
57. Balancing Chemical Reactions
58. Understanding the Types of Functional Groups
59. Defining Stoichiometry
60. The Stoichiometric Chart
61. Understanding the limiting reactant or reagent
62. Understanding Percent Yield
63. Definition of Molarity
64. The Difference Between a Solute and Solvent
65. Molarity and Stoichiometry
66. Stoichiometric Chart and Molarity
67. The Rules for the Solubility of a compound
68. The meaning of the terms soluble and aqueous
69. The meaning of the terms insoluble and precipitate
70. The Classification of Electrolytes
71. The Strong Electrolytes
72. The Weak Electrolytes
73. The Non Electrolytes
74. Writing Chemical Reactions
75. Balanced Molecular Equation
76. Total Ionic Equation
77. Net Ionic Equation
78. Understanding Oxidation versus Reduction
79. Rules for Oxidation Numbers
80. Determining Oxidation Numbers
81. Pressure vs Force
82. The different units for Pressure
83. Understanding Dalton's Law
84. Understanding mole fraction and partial pressure
85. Boyle's Law
86. Charles Law
87. Avogadro's Law
88. Understanding PV = nRT, the Ideal Gas Law
89. Gay Lussac's Law
90. Ideal Gas Stoichiometry
91. Understanding Standard State Conditions
92. Standard Molar Volume
93. Combined Gas Law
94. Using the Ideal Gas Law to find density or molar mass
95. Understanding kinetic energy & Root Mean Square Speed
96. Understanding Graham's Law of Effusion
97. Understanding the Kinetic Molecular Theory
98. The Characteristics of an Ideal Gas
99. Thermodynamics vs Thermochemistry
100. System vs Surroundings
101. Understanding the internal energy of the system
102. Heat vs. Work
103. Calculating work
104. Calculating heat and the internal energy of the system
105. Calculating the internal energy of the system in a vacuum
106. Heat capacity vs Specific Heat Capacity
107. Bomb Calorimeter
108. Coffee Cup Calorimeter
109. Calculating the Heat of the Solution
110. Calculating the enthalpy of the reaction
111. Understanding Thermochemical Equations
112. Understanding Hess's Law
113. Using Hess's Law
114. Understanding a Formation Equation
115. Understanding Heats of Formation
116. The Electromagnetic Spectrum
117. Wavelength & Frequency
118. The relationship between Wavelength & Frequency
119. Converting between Wavelength & Frequency
120. Understanding Refraction
121. Understanding Diffraction
122. Understanding the difference between Constructive and Destructive Interference
123. Understanding Planck's constant
124. Understanding the Photoelectric Effect
125. Illustrating what happens when a photon strikes the surface of a metal
126. The De Broglie Wavelength Equation
127. Understanding the Atom
128. Absorption vs Emission
129. Understanding Absorption & Emission
130. Different Emission Series
131. The Quantum Mechanical Picture of the Atom
132. The Quantum Sublevels
133. The Principal Quantum Number (n)
134. Electron Capacity
135. The Angular Momentum Quantum Number (l)
136. The Magnetic Quantum Number (mL)
137. Understanding Periodic Law
138. The Auf Bau Principle
139. The s,p, d, f sublevels and the Periodic Table
140. The Electron Configuration of Fluorine
141. Hund's Rule
142. Understanding Paramagnetism & Diamagnetism
143. Inner Core vs Valence Electrons
144. The Spin Quantum Number
145. The Pauli Exclusion Principle
146. Revisiting the Quantum Mechanical Picture of the Atom
147. Quantum Numbers and Atomic Orbital Shape
148. Understanding Atomic Radius
149. Understanding Ionization Energy
150. Exceptions to Ionization Energy in Groups 5A & 6A
151. Electron Affinity
152. Ionic Radius
153. Exceptions to Ionization Energy in Groups 2A & 3A
154. Understanding Exergonic & Endergonic Reactions
155. Understanding Lattice Energy
156. Understanding Dipole Arrows
157. Dipole Arrows and Bond Classifications
158. Understanding Electronegativity
159. Understanding Lewis Dot Symbols
160. Rules for Drawing Molecular Compounds
161. Understanding Incomplete Octets
162. Understanding the Expanded Octet
163. Shortcut to Drawing Polyatomic Ions
164. Why is formal charge important
165. The Formal Charge Formula
166. Understanding Electronic Geometry
167. Understanding Molecular Geometry
168. VSEPR Model for Bonding
169. Ideal Bond Angles
170. Lone Pairs & Bond Angles
171. Understanding Molecular Polarity
172. The First Rule for Molecular Polarity
173. The Second Rule for Molecular Polarity
174. Understanding Overlapping Atomic Orbitals
175. Understanding Hybrid Orbitals
176. Simplifying Hybridization

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