Q1.) A CRT deflection plates of (60mm) long and (0.5cm) apart. The screen is (22cm) away from the center of deflection plates. The electrons enter the plates with velocity of (2.445x10’m/sec). If an input signal is applied, it will produce (3cm) deflection on the screen with an angular deflection of (7.77°). Determine: 1- Acceleration voltage. 2- Deflection potential. 3- The coordinate of electrons beam at the center of deflection plates. 4- The time taken by electrons beam in its traveling from the end of deflection plates to the screen. Note: m= 9.1x10kg e=1.6x10°C

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Q1.) A CRT deflection plates of (60mm) long and (0.5cm) apart. The screen is (22cm)
away from the center of deflection plates. The electrons enter the plates with velocity of
(2.445x10’m/sec). If an input signal is applied, it will produce (3cm) deflection on the screen
with an angular deflection of (7.77°). Determine:
1- Acceleration voltage.
2- Deflection potential.
3- The coordinate of electrons beam at the center of deflection plates.
4- The time taken by electrons beam in its traveling from the end of deflection plates to the
screen.
Note:
m= 9.1x10kg
e=1.6x10°C
Transcribed Image Text:Q1.) A CRT deflection plates of (60mm) long and (0.5cm) apart. The screen is (22cm) away from the center of deflection plates. The electrons enter the plates with velocity of (2.445x10’m/sec). If an input signal is applied, it will produce (3cm) deflection on the screen with an angular deflection of (7.77°). Determine: 1- Acceleration voltage. 2- Deflection potential. 3- The coordinate of electrons beam at the center of deflection plates. 4- The time taken by electrons beam in its traveling from the end of deflection plates to the screen. Note: m= 9.1x10kg e=1.6x10°C
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