A particle with charge 2.50 µC and mass 3.00x10-11 kg is initially traveling in the +y-direction with a speed vo = 1.60x105 m/s. It then enters a region containing a uniform magnetic field that is directed into, and perpendicular to, the page in the figure (Figure 1). The magnitude of the field is 0.450 T. The region extends a distance of 25.0 cm along the initial direction of travel; 75.0 cm from the point of entry into the magnetic field region is a wall. The length of the field- free region is thus 50.0 cm. When the charged particle enters the magnetic field, it follows a curved path whose radius of curvature is R. it then leaves the magnetic field after a time t1, having been deflected a distance Arj. The particle then travels in the field-free region and strikes the wall after undergoing a total deflection Ar Part C Determine Az1, the horizontal deflection at the point of exit from the field. Express your answer in meters. να ΑΣφ. ? Az = m Submit Previous Answers Request Answer Figure < 1 of 1> X Incorrect; Try Again; 9 attempts remaining Wall Part D Determine Aæ, the total horizontal deflection. D- 750 cm Express your answer in meters. 25.0 cm Az =

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Chapter1: Units, Trigonometry. And Vectors
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A particle with charge 2.50 µC and mass 3.00x10-11 kg is initially
traveling in the +y-direction with a speed vo = 1.60x105 m/s. It then
enters a region containing a uniform magnetic field that is directed
into, and perpendicular to, the page in the figure (Figure 1). The
magnitude of the field is 0.450 T. The region extends a distance of
25.0 cm along the initial direction of travel; 75.0 cm from the point of
entry into the magnetic field region is a wall. The length of the field-
free region is thus 50.0 cm. When the charged particle enters the
magnetic field, it follows a curved path whose radius of curvature is
R. It then leaves the magnetic field after a time t1, having been
deflected a distance Az1. The particle then travels in the field-free
region and strikes the wall after undergoing a total deflection Ar.
Part C
Determine Az1, the horizontal deflection at the point of exit from the field.
Express your answer in meters.
Π ΑΣφ.
?
Ar1 =
Submit
Previous Answers Request Answer
Figure
< 1 of 1
X Incorrect; Try Again; 9 attempts remaining
Wall
Part D
D
Determine Ar, the total horizontal deflection.
75.0 cm
Ar
Express your answer in meters.
25.0 cm
Az =
m
Transcribed Image Text:A particle with charge 2.50 µC and mass 3.00x10-11 kg is initially traveling in the +y-direction with a speed vo = 1.60x105 m/s. It then enters a region containing a uniform magnetic field that is directed into, and perpendicular to, the page in the figure (Figure 1). The magnitude of the field is 0.450 T. The region extends a distance of 25.0 cm along the initial direction of travel; 75.0 cm from the point of entry into the magnetic field region is a wall. The length of the field- free region is thus 50.0 cm. When the charged particle enters the magnetic field, it follows a curved path whose radius of curvature is R. It then leaves the magnetic field after a time t1, having been deflected a distance Az1. The particle then travels in the field-free region and strikes the wall after undergoing a total deflection Ar. Part C Determine Az1, the horizontal deflection at the point of exit from the field. Express your answer in meters. Π ΑΣφ. ? Ar1 = Submit Previous Answers Request Answer Figure < 1 of 1 X Incorrect; Try Again; 9 attempts remaining Wall Part D D Determine Ar, the total horizontal deflection. 75.0 cm Ar Express your answer in meters. 25.0 cm Az = m
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