슬라이드 1
... have precisely the same velocity, so the beam of ions passes through an electric field region before or after the magnetic sector. In the presence of an electric field, the particles all travel at the same velocity. ...
... have precisely the same velocity, so the beam of ions passes through an electric field region before or after the magnetic sector. In the presence of an electric field, the particles all travel at the same velocity. ...
part 1, intro
... The purpose of this report is to investigate the motion of a toy car. Motion is the process of an object moving from one place to another. A force will need to apply to an object for it to start moving. In the experiment, a toy car in different weights will slide down a slope in different angles and ...
... The purpose of this report is to investigate the motion of a toy car. Motion is the process of an object moving from one place to another. A force will need to apply to an object for it to start moving. In the experiment, a toy car in different weights will slide down a slope in different angles and ...
Homework due 5-10
... b. Determine the speed of the center of mass of the system when the left-hand block is no longer in contact with the wall c. Determine the period of oscillation for the system when the left-hand block is no longer in contact with the wall 2. A mass spectrometer, constructed as shown in the diagram a ...
... b. Determine the speed of the center of mass of the system when the left-hand block is no longer in contact with the wall c. Determine the period of oscillation for the system when the left-hand block is no longer in contact with the wall 2. A mass spectrometer, constructed as shown in the diagram a ...
9 Systems of Particles
... Consider the total kinetic energy K 2 mi vi i of a system of particles. This can be rewritten as K = Kcm + Kint, where the first term is the kinetic energy of the center of mass and the second is the kinetic energy relative to the center of mass. ...
... Consider the total kinetic energy K 2 mi vi i of a system of particles. This can be rewritten as K = Kcm + Kint, where the first term is the kinetic energy of the center of mass and the second is the kinetic energy relative to the center of mass. ...
