Two parallel conducting plates are separated by 16.0 cm. The region between the plates is immersed in a uniform magnetic field of 125 mT into the screen (-x direction) as shown below. How many volts must be applied across the plates to allow a 2.20 keV proton to go undeflected? Which plate must be the positive

icon
Related questions
Question
Please help
QUESTION 4
Two parallel conducting plates are separated by 16.0 cm. The region between the plates is immersed in a
uniform magnetic field of 125 mT into the screen (-x direction) as shown below. How many volts must be
applied across the plates to allow a 2.20 keV proton to go undeflected? Which plate must be the positive
plate?
Transcribed Image Text:QUESTION 4 Two parallel conducting plates are separated by 16.0 cm. The region between the plates is immersed in a uniform magnetic field of 125 mT into the screen (-x direction) as shown below. How many volts must be applied across the plates to allow a 2.20 keV proton to go undeflected? Which plate must be the positive plate?
A 2.20 kV, with the left plate positive and right plate negative
O B. 13.0 kV, with the right plate positive and left plate negative
OC. 2.20 kV, with the right plate positive and left plate negative
O D. 13.0 kV, with the left plate positive and right plate negative
O E. 275 V, with the left plate positive and right plate negative
O F. None of the given options
Transcribed Image Text:A 2.20 kV, with the left plate positive and right plate negative O B. 13.0 kV, with the right plate positive and left plate negative OC. 2.20 kV, with the right plate positive and left plate negative O D. 13.0 kV, with the left plate positive and right plate negative O E. 275 V, with the left plate positive and right plate negative O F. None of the given options
Expert Solution
steps

Step by step

Solved in 6 steps with 6 images

Blurred answer