An unknown particle (m=1.23x10–26kg) with 5 electrons in deficit enters a region between two parallel plates (V = 89132.5V) at a speed of 3.45æ10®m/s. After exiting from between the plates, it enters into a region with a perpendicular magnetic field (Bext = 10.98MT into the page) V=89132.5 V Pest= 10.98 mT っ × X X M= 1.23 X 10 ×メ X X V; = 3.45, * 10 = ? cm **NOTE: Complete ALL three (3) parts of this written question (#23, 24 & 25) on ONE separate piece of paper then take a photo and insert the ONE image in the "Your Answer" section of Question #23. The "Your Answer" sections for Questions 24 & 25 can be left blank. Thanks! :) 23. Calculate the speed (vf) that the particle will have when it exits from between the parallel plates. (Write your answer in 3 significant digits) X x X X X X X
An unknown particle (m=1.23x10–26kg) with 5 electrons in deficit enters a region between two parallel plates (V = 89132.5V) at a speed of 3.45æ10®m/s. After exiting from between the plates, it enters into a region with a perpendicular magnetic field (Bext = 10.98MT into the page) V=89132.5 V Pest= 10.98 mT っ × X X M= 1.23 X 10 ×メ X X V; = 3.45, * 10 = ? cm **NOTE: Complete ALL three (3) parts of this written question (#23, 24 & 25) on ONE separate piece of paper then take a photo and insert the ONE image in the "Your Answer" section of Question #23. The "Your Answer" sections for Questions 24 & 25 can be left blank. Thanks! :) 23. Calculate the speed (vf) that the particle will have when it exits from between the parallel plates. (Write your answer in 3 significant digits) X x X X X X X
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![An unknown particle (m=1.23x10¯20kg) with 5 electrons in deficit enters a region
between two parallel plates (V = 89132.5V) at a speed of 3.45x10®m/s. After
exiting from between the plates, it enters into a region with a perpendicular magnetic
field (Bext = 10.98MT into the page)
V=89132.5 V
Past.= 10.98 mT
%3D
X X
M= 1.23
X10
-26
V; = 3.45,
X X
X X
X X X x
F= _?
cm
**NOTE: Complete ALL three (3) parts of this written question (#23, 24 & 25) on
ONE separate piece of paper then take a photo and insert the ONE image in the
"Your Answer" section of Question #23. The "Your Answer" sections for Questions 24
& 25 can be left blank. Thanks! :)
23. Calculate the speed (vf) that the particle will have when it exits from between the
parallel plates. (Write your answer in 3 significant digits)
Your answer:
X X x X X X
X X X x X](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F596f119f-910a-4ab1-87fe-386d53a7cf10%2F62e2f354-98f8-4bc3-b38d-b9b7740298ef%2F8h8yrf8q_processed.png&w=3840&q=75)
Transcribed Image Text:An unknown particle (m=1.23x10¯20kg) with 5 electrons in deficit enters a region
between two parallel plates (V = 89132.5V) at a speed of 3.45x10®m/s. After
exiting from between the plates, it enters into a region with a perpendicular magnetic
field (Bext = 10.98MT into the page)
V=89132.5 V
Past.= 10.98 mT
%3D
X X
M= 1.23
X10
-26
V; = 3.45,
X X
X X
X X X x
F= _?
cm
**NOTE: Complete ALL three (3) parts of this written question (#23, 24 & 25) on
ONE separate piece of paper then take a photo and insert the ONE image in the
"Your Answer" section of Question #23. The "Your Answer" sections for Questions 24
& 25 can be left blank. Thanks! :)
23. Calculate the speed (vf) that the particle will have when it exits from between the
parallel plates. (Write your answer in 3 significant digits)
Your answer:
X X x X X X
X X X x X
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