1. a specia In a linear accelerator, protons are accelerated from rest through a potential difference to a speed of approximately 3.1 x 100 meters per second. The resulting proton beam produces a current of 2.0 x 10- ampere. babanib blaft oiten Proton Beam (818 0785 b. one Region of Field B -x noinbasew hon (Positive z out of page) a. Determine the potential difference through which the protons were accelerated. edi ed izum tarWtnymus inadenoo & z9imo siw srit dign bris m 226m 625 siw nids lotnosion A 2 Spil lanolivat ni-blail si to noltosib gnetic ficlegsereiro (5)ro speqtorious sris mwo (0) irigiA (8) SJ (A) If the beam is stopped in a target, determine the amount of thermal energy that is produced in the target in minute.
1. a specia In a linear accelerator, protons are accelerated from rest through a potential difference to a speed of approximately 3.1 x 100 meters per second. The resulting proton beam produces a current of 2.0 x 10- ampere. babanib blaft oiten Proton Beam (818 0785 b. one Region of Field B -x noinbasew hon (Positive z out of page) a. Determine the potential difference through which the protons were accelerated. edi ed izum tarWtnymus inadenoo & z9imo siw srit dign bris m 226m 625 siw nids lotnosion A 2 Spil lanolivat ni-blail si to noltosib gnetic ficlegsereiro (5)ro speqtorious sris mwo (0) irigiA (8) SJ (A) If the beam is stopped in a target, determine the amount of thermal energy that is produced in the target in minute.
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How would you do part A? This is a non graded worksheet
![1.
(A)
In a linear accelerator, protons are accelerated from rest through a potential difference to a speed of approximately
3.1 x 100 meters per second. The resulting proton beam produces a current of
2.0 x 10 ampere.
a.
botenib blaft olten Proton Beam
b.
one
E 2²0 bergqA
9GA (3)
Region of
Field B
12000 6 2simo sriw SnT dig
Shoot and
od Jaum IsrWI instwo Instands &
Determine the potential difference through which the protons were accelerated.
2V
di ed izumi6W JI
-X
(Positive z
out of page)
nobarb
ignol bns m
stiw testney A
w rhon B
Asblal ongem
Amestay 1223 (AT
nidi Istnositon A
s m 226m 6 2511
bio ni bisit
mert to noitoshib
ASJ (A)
gno
mwoo (0)
ingin (8)
If the beam is stopped in a target, determine the amount of thermal energy that is produced in the target in
minute.
le?
A
à 2er Sniw nirt isins or Al
allengem eiti to sbutingem](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F6dac1fe8-9484-432e-9121-04aedd30c8dd%2F5d0112ac-64fc-46f6-bb7e-ef65d335d906%2Fswpvbnk_processed.jpeg&w=3840&q=75)
Transcribed Image Text:1.
(A)
In a linear accelerator, protons are accelerated from rest through a potential difference to a speed of approximately
3.1 x 100 meters per second. The resulting proton beam produces a current of
2.0 x 10 ampere.
a.
botenib blaft olten Proton Beam
b.
one
E 2²0 bergqA
9GA (3)
Region of
Field B
12000 6 2simo sriw SnT dig
Shoot and
od Jaum IsrWI instwo Instands &
Determine the potential difference through which the protons were accelerated.
2V
di ed izumi6W JI
-X
(Positive z
out of page)
nobarb
ignol bns m
stiw testney A
w rhon B
Asblal ongem
Amestay 1223 (AT
nidi Istnositon A
s m 226m 6 2511
bio ni bisit
mert to noitoshib
ASJ (A)
gno
mwoo (0)
ingin (8)
If the beam is stopped in a target, determine the amount of thermal energy that is produced in the target in
minute.
le?
A
à 2er Sniw nirt isins or Al
allengem eiti to sbutingem
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