Newton`s Laws of Motion
... Three Types of Inertia Inertia of a body is of three types: 1. Inertia of rest 2. Inertia of motion 3. Inertia of direction. Inertia of rest It is the inability of a body to change by itself, its state of rest. This means tl body at rest remains at rest and cannot start moving on its own. For exampl ...
... Three Types of Inertia Inertia of a body is of three types: 1. Inertia of rest 2. Inertia of motion 3. Inertia of direction. Inertia of rest It is the inability of a body to change by itself, its state of rest. This means tl body at rest remains at rest and cannot start moving on its own. For exampl ...
![PhysRozz Midterm 2012 [via06-07] Version 18](http://s1.studyres.com/store/data/014722455_1-33f5b15b25beb94441904fea997b655c-300x300.png)
PhysRozz Midterm 2012 [via06-07] Version 18
... 19. What is the magnitude of the boat’s resultant velocity as it crosses the stream? 1) 2.5 m/s ...
... 19. What is the magnitude of the boat’s resultant velocity as it crosses the stream? 1) 2.5 m/s ...
Lecture slides with notes
... (v1 - v2)i = - (v1 - v2)f deltaPE always can be treated as (at least close to) 0 since just before and just after collision (even if has y component). Different form of Kinetic energy equation where actually energy exchange no longer depends on mass in an elastic collision. Your RELATIVE velocities ...
... (v1 - v2)i = - (v1 - v2)f deltaPE always can be treated as (at least close to) 0 since just before and just after collision (even if has y component). Different form of Kinetic energy equation where actually energy exchange no longer depends on mass in an elastic collision. Your RELATIVE velocities ...
1. Force a
... have to represent the position of the particle. We could equally well use such a graph to represent the way velocity changes with time. Thus, in the graph in Fig. 1, where x now represents velocity, at time t = 0 the velocity is 5 m s-1 (or any other units you may prefer), at t = 1 sec the velocity ...
... have to represent the position of the particle. We could equally well use such a graph to represent the way velocity changes with time. Thus, in the graph in Fig. 1, where x now represents velocity, at time t = 0 the velocity is 5 m s-1 (or any other units you may prefer), at t = 1 sec the velocity ...
