Manishaa – A-Level Chemistry 🧪⚗️ (AQA, OCR, Edexcel, CIE)
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Manishaa – A-Level Chemistry 🧪⚗️ (AQA, OCR, Edexcel, CIE)
Get an A* in A-Level Chemistry – 20 Hours of Video Tutorials for just £29
Comes with practice questions, textbook and flashcards.
Introduction
A-Level Chemistry is HARD, there’s no denying it! Trying to cram all the theory, memorising all the practicals and applying it all to exam technique – they don’t make it easy. It’s no wonder that only 8% last year scored the top A* grade required by many universities ?-
Many missed out on their university and had to reapply.
How would you feel if there was a revision tool that mapped out the entire specification in a scientifically-proven method of getting results?
A tool which showed you how to perfect exam technique ?
That’s why we’ve build this course with videos, textbooks, flashcards, past papers and more. ??
Best of all, it has been verified and certified by the UK’s Leading AQA, CIE, OCR and Edexcel A-Level Chemistry Examiners ??
What does our course include?
• 200 Video Tutorials for all parts of AQA, CIE, OCR, Edexcel Specifications
• Revision Notes for Every Chapter with Exclusive Examiner Tips
• Access until June 2022
No more spending ages looking for past papers or hours trying to learn a topic that isn’t explained well in the official textbook. ?
Next Steps
All you need to do is click “Enroll in Course” button and you’ll get access to all of the above for one single joining fee of £29 (No monthly charge). You will get access until June 2022 ?
Do you want to take your chances with just reading a textbook and doing some past papers or do you want to go the extra mile by covering all your bases to secure your A* and your dream university?
So, enrol onto our course today and start your journey towards an A* in A-Level Chemistry! ?
Course Curriculum
22. Atomic and Mass Numbers (10:15)
23. Element Isotopes (4:42)
24. Mass Spectrometry (22:25)
25. Electrons in Atoms (13:41)
26. Electron Arrangement (16:33)
27. Measuring Relative Masses (9:13)
28. The Mole and the Avogrado Constant (8:58)
29. Further Mole calculations (17:52)
30. The Ideal Gas Equation (10:14)
31. Empirical and Molecular Formulae (17:15)
32. Balancing Chemical Equations (20:26)
33. Stoichiometric Calculations (14:31)
34. Calculating Percentage Yield (8:47)
35. Percentage Atom Economy (7:57)
36. Ion Formation (5:51)
37. Properties of Ionic Bonding (10:33)
38. Covalent Bonds (9:05)
39. Properties of Covalent Structures (5:33)
40. Properties of Metallic Bonding (5:06)
41. Carbon Allotropes (7:25)
42. Predicting Bonding Types (7:28)
43. Molecular Shapes (18:20)
44. Bond Polarity (14:04)
45. Forces between Molecules (21:11)
46. Hydrogen Bonding in Water (11:16)
51. Reaction Rates and the Collision Theory (16:03)
52. Maxwell–Boltzmann Distribution (14:31)
53. Chemical Equilibria and Le Chatelier’s Principle (15:52)
54. Chemical Equilibria applied to Industry (7:29)
55. Calculations with Equilibrium Constants (22:13)
56. Oxidation States (14:44)
57. Redox Processes (5:03)
58. Balancing Redox Equations (12:13)
59. Classification (6:13)
60. Trends along Period 3 (9:04)
62. Ionisation Energies (24:08)
64. Group 2, The Alkaline Earth Metals (5:25)
65. Reactions of Group 2 Elements (16:06)
66. Uses of Group 2 Elements and their Compunds (5:05)
67. Group 7, The Halogens (9:55)
68. Reactions of the Halogens (10:12)
69. Disproportionation Reactions in Halogens (9:36)
70. Reducing power of Halide Ions (11:06)
71. Testing for Ions (9:21)
72. Naming and Representing Organic Compounds (23:07)
73. Introduction to Functional Groups (4:37)
74. General Formulae (3:23)
75. Reaction Mechanisms in Organic Chemistry (13:32)
76. Isomers (6:26)
77. E/Z Isomerism (20:45)
78. Alkanes: Properties and Reactivity (21:00)
79. Obtaining Alkanes (6:06)
80. Introduction to Halogenoalkanes (10:44)
81. Reactivity of Halogenoalkanes (16:08)
82. Environmental impact of Halogenoalkanes (10:48)
83. Alkene Reactivity (20:07)
84. Addition Polymerisation in Alkenes (10:07)
85. Introduction to Alcohols (7:19)
86. Alcohol oxidation (9:11)
87. Reactivity of Alcohols (18:55)
88. Alcohol production (6:33)
89. Identification of Functional Groups (10:29)
90. Infrared (IR) Spectroscopy (12:04)
91. Lattice Enthalpies (4:20)
92. Enthalpy Key Terms (13:01)
93. Construction of Born-Haber Cycles (7:20)
94. Calculations involving Born-Haber Cycles (7:25)
95. Enthalpy of Hydration (2:42)
96. Enthalpy of Solution (2:23)
97. Calculating Enthalpy of Solution (3:19)
98. Introduction to Entropy (4:11)
99. Total Entropy Changes (5:08)
100. Entropy Change Predictions (3:21)
101. Gibbs Free Energy (3:45)
102. Calculations involving Free Energy (6:06)
103. Measuring Rate of Reaction
104. The Rate Equation (2:20)
105. Introduction to Order of Reactions (2:37)
106. The Rate Constant (5:11)
107. Temperature Changes and the Rate Constant (10:18)
108. Determining Orders of Reaction Graphically (4:49)
109. Determining Orders of Reactions Experimentally (5:37)
110. Uses of Clock Reactions (4:09)
111. Reaction Half Lives
112. Reaction Determining Steps (5:51)
113. Gas Partial Pressures (5:19)
114. Gas Equilibria and Kp (8:55)
115. Le Chatelier’s Principle in Gas Equilibria (4:46)
116. Changing Kp (4:20)
117. Half Cells and Full Cells (9:56)
118. Electrode Potentials (14:09)
119. Representing Electrochemical Cells (3:58)
120. Electrochemical cells Reactions (8:08)
121. Commercial Applications of Fuel Cells (11:58)
122. Brownsted-Lowry Acid-Base Equilibrium (8:42)
123. Strength of Acids and Bases (3:19)
124. Neutralisation Reactions (3:39)
125. The pH scale and Strong acids (7:14)
126. The Acid Dissociation Constant, Ka (6:31)
127. More Ka Calculations (6:14)
128. Ionic Product of Water (5:11)
129. pH of Strong Bases (9:52)
130. Dilutions and pH (2:25)
131. Buffer Action (24:38)
132. Titrations (3:37)
133. Acid-base Indicators (4:53)
134. Drawing pH Curves (13:06)
135. Reactivity of Period 3 Elements (5:48)
136. Properties of Period 3 Compounds (17:47)
137. The Transition metals (3:36)
138. Variable Oxidation States (2:06)
139. Characteristics of Transition Metals (4:30)
140. Introduction to Complex Ions (5:57)
141. Ligands (4:01)
142. Complex Ion Shape (4:15)
143. Cis Trans Isomerism in Complex Ions (3:16)
144. Optical Isomerism in Complex Ions (2:12)
145. Colours of Transition Metal Ions (10:35)
146. Ligand Substitution Reactions (21:43)
147. Redox Reactions Revisited (2:40)
148. Redox Potentials (4:27)
149. Redox Titrations (4:11)
150. Using Potassium Permanganate in Redox Titrations (15:14)
151. Iodine-Sodium Thiosulfate Titrations (10:10)
152. Examples of Redox in Transition Metals (8:51)
153. 12.2, 12.23 (6:15)
154. Transiton Metals as Homogeneous Catalysts (3:10)
155. Autocatalysis in Transition Metals (2:53)
156. Metal Ions in Solution (8:35)
157. Precipitation Reactions of Metal Ions in Solution (17:47)
158. Testing for Cations (5:56)
159. Testing for Anions (9:08)
160. Optical Isomerism (10:30)
161. Carbonyl Compounds (4:09)
162. Reactivity of Carbonyl Compunds (11:28)
163. Testing for Carbonyl Compounds (6:52)
164. Reactions to Increase Carbon Chain Length (4:34)
165. Properties and Reactivity of Carboxylic Acids (16:51)
166. Properties and Reactivity of Esters (13:03)
167. Acyl Groups (23:56)
168. Structure of Amides (6:40)
169. Introduction to Benzene (6:35)
170. Delocalisation Model of Benzene (2:45)
171. Benzene Nomenclature (4:22)
172. Electrophilic Substitution Reactions in Benzene (7:46)
173. Halogenation Reactions in Benzene (6:29)
174. Friedel-Crafts Acylation and Alkylation (12:16)
175. Reactivity of Substituted Benzene (13:09)
176. Introduction to Amines (8:45)
177. Amine Synthesis (9:45)
178. Properties and Reactivity of Amines (13:40)
179. Nitriles (3:02)
180. Condensation Polymers (3:48)
181. Polyamide Formation (3:45)
182. Polymer Biodegradability (4:04)
183. Polymer Disposal (2:42)
184. Structure of Amino Acids (8:08)
185. Structure of Proteins (14:15)
186. Enzyme Action (4:07)
187. DNA (6:33)
188. DNA Replication (6:11)
189. Practical Preparation Techniques (4:14)
190. Practical Purification Techniques (9:00)
191. Organic Synthesis: Aliphatic Compounds (12:06)
192. Organic Synthesis: Aromatic Compounds (8:02)
193. Considerations in Organic Synthesis (1:47)
194. Chromatography (13:58)
195. Different Types of Chromatography (9:45)
196. Nuclear Magnetic Resonance Spectroscopy (3:10)
197. NMR Samples and Standards (2:00)
198. Types of NMR: Carbon 13 (8:32)
199.Types of NMR: Hydrogen (6:51)
200. High Resolution 1H NMR (8:32)
201. Deuterium use in 1H NMR (6:42)
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