Guided course 07:52Solving Systems Problems with Friction using EnergyPatrick Ford3114views63rank2comments
Guided course 10:17Solving System of Blocks on Incline Plane with EnergyPatrick Ford3586views73rank3comments
09:17Atwood machine with a spring: maximum stretch, maximum speed, and acceleration.Zak's Lab659views
06:27Computing speed and maximum height for a block shot vertically by a spring. Max height of the mass.Zak's Lab273views
Textbook Question(II) Two masses are connected by a string as shown in Fig. 8–35. Mass m_A = 3.5 kg rests on a frictionless inclined plane, while m_B = 5.0 kg is initially held at a height of h = 0.75 m above the floor.<IMAGE>(c) Use conservation of energy to find the velocity of the masses just before m_B hits the floor. You should get the same answer as in part (b).206views
Textbook Question(II) The 9.0-kg mass in Fig. 8–36 is held just barely in contact with a spring for which k = 450 N/m . When that mass is released, it falls, compressing the spring and pulling the 3.0-kg mass up. How far does the 9.0-kg mass fall before momentarily coming to rest? Ignore friction in the pulley. <IMAGE>361views