Chapter 1: ========== Read/browse all except Sec1.5 Chapter 2: ========== Read/browse all. However, we will not emphasise graphs from this Chapter. We discussed the essential physics without using graphical methods. (You may need graphs for the lab.) The constant velocity equations and Eqs 2.11, 2.12, 2.13 are the most important. Free fall is also important. Chapter 3: ========== Read/browse all except Secs 3.5 and 3.8. Chapter 4: ========== Read/browse all sections. Do the Examples. F=ma is the bottomline, along with energy in Ch10, of Phys121 Chapter 5: ========== Read/browse all sections. Do the Examples. MUST know FBDs. Chapter 6: ========== Read/browse all sections, except dont worry about angular frequency for now - first master v = 2Pir/T. Do the Examples. The build up in this Chapter is to Newtons Law of Universal Gravitation. Must know what g means now in the context of the new G. Chapter 9: ========== Read only Secs 9.4, 9.5, 9.6, and the examples therein. Chapter 10: =========== Browse first part, then read/browse 10.2 thru the rest of the Chapter. Do the Examples. Energy conservation is another way to understand F=ma. But it gives a quicker way to come to some partial but important conclusions about systems. Chapter 11: =========== Read/browse entire chapter. Chapter 12: =========== Read/browse Secs 1, 2, 5, 6, and only the C_V part of 7.