Singly-ionized particles with mass, m = 3.34 x 10-27 kg, are produced by an ion source and accelerated from rest to speed, v, by an applied voltage, Vapp = 245 V. The ions are focused into a tight beam and shot through a uniform magnetic field, B = 2.57 mT, at a target that's a distance, d = 47.5 cm, away as shown in the figure. The beam bends along a circular path as it travels through the magnetic field so that, the ions hit the target a distance, Ax, to the right of the straight line path (dashed line) as shown. (a) What's the sign of the charge on the ions? O positive negative (b) How fast are the ions moving when they leave the source? m/s V = (c) What is the radius of the beam's circular path? r= m (d) How far was the beam deflected by the time it reached the target? Ax = cm
Singly-ionized particles with mass, m = 3.34 x 10-27 kg, are produced by an ion source and accelerated from rest to speed, v, by an applied voltage, Vapp = 245 V. The ions are focused into a tight beam and shot through a uniform magnetic field, B = 2.57 mT, at a target that's a distance, d = 47.5 cm, away as shown in the figure. The beam bends along a circular path as it travels through the magnetic field so that, the ions hit the target a distance, Ax, to the right of the straight line path (dashed line) as shown. (a) What's the sign of the charge on the ions? O positive negative (b) How fast are the ions moving when they leave the source? m/s V = (c) What is the radius of the beam's circular path? r= m (d) How far was the beam deflected by the time it reached the target? Ax = cm
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![Singly-ionized particles with mass, m = 3.34 x 10-27 kg, are
produced by an ion source and accelerated from rest to
speed, v, by an applied voltage, Vapp = 245 V.
The ions are focused into a tight beam and shot through a
uniform magnetic field, B = 2.57 mT, at a target that's a
distance, d = 47.5 cm, away as shown in the figure.
The beam bends along a circular path as it travels through the
magnetic field so that, the ions hit the target a distance, Ax, to
the right of the straight line path (dashed line) as shown.
(a) What's the sign of the charge on the ions?
O positive
● negative ✔
(b) How fast are the ions moving when they leave the source?
m/s
V =
(c) What is the radius of the beam's circular path?
r =
m
(d) How far was the beam deflected by the time it reached the target?
Ax =
cm
target
X
X
X
X
Viewed from Above
Ax
X
13
B
X X
X
X
X
X
X X X
lon Source
X X
X
beam
X
X
X
X X
X X
d
X
X
X
X
X
V app](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc9cc212e-530e-418e-a717-3da751b9b16b%2F72cbefc3-48c6-41b6-90f9-f8ea10abcc1e%2Fzm5590d_processed.png&w=3840&q=75)
Transcribed Image Text:Singly-ionized particles with mass, m = 3.34 x 10-27 kg, are
produced by an ion source and accelerated from rest to
speed, v, by an applied voltage, Vapp = 245 V.
The ions are focused into a tight beam and shot through a
uniform magnetic field, B = 2.57 mT, at a target that's a
distance, d = 47.5 cm, away as shown in the figure.
The beam bends along a circular path as it travels through the
magnetic field so that, the ions hit the target a distance, Ax, to
the right of the straight line path (dashed line) as shown.
(a) What's the sign of the charge on the ions?
O positive
● negative ✔
(b) How fast are the ions moving when they leave the source?
m/s
V =
(c) What is the radius of the beam's circular path?
r =
m
(d) How far was the beam deflected by the time it reached the target?
Ax =
cm
target
X
X
X
X
Viewed from Above
Ax
X
13
B
X X
X
X
X
X
X X X
lon Source
X X
X
beam
X
X
X
X X
X X
d
X
X
X
X
X
V app
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