0
answers
0
watching
343
views
14 Nov 2019
Deflection in a CRT. Cathode-ray tubes (CRTs) are often found in oscilloscopes and computer monitors. In Fig. 23.34 an electron with an initial speed of 7.20 times 106 m/s is projected along the axis midway between the deflection plates of a cathode-ray tube. The uniform electric field between the plates has a magnitude of 1.46 times 103 V/m and is upward. What is the force (magnitude and direction) on the electron when it is between the plates? What is the acceleration of the electron (magnitude and direction) when acted on by the force in part (a)? How far below the axis has the electron moved when it reaches the end of the plates? At what angle with the axis is it moving as it leaves the plates? How far below the axis will it strike the fluorescent screen S?
Deflection in a CRT. Cathode-ray tubes (CRTs) are often found in oscilloscopes and computer monitors. In Fig. 23.34 an electron with an initial speed of 7.20 times 106 m/s is projected along the axis midway between the deflection plates of a cathode-ray tube. The uniform electric field between the plates has a magnitude of 1.46 times 103 V/m and is upward. What is the force (magnitude and direction) on the electron when it is between the plates? What is the acceleration of the electron (magnitude and direction) when acted on by the force in part (a)? How far below the axis has the electron moved when it reaches the end of the plates? At what angle with the axis is it moving as it leaves the plates? How far below the axis will it strike the fluorescent screen S?