Shown in yellow in the figure below is a region of the uniform magnetic field of width a=1.89 cm that is used to deflect a beam of accelerated electrons entering this region normally with speed v=11.25 x 106 m/s. After leaving the deflection region, electrons hit the screen, distance b=12.7 cm away, to produce an image. B d a When the field is zero, the electrons would hit the screen in the center, at point O. With the field B=24.7 G, electrons hit the screen at point P, distance d above point O. Find this displacement d caused by the magnetic deflection: d= cm.
Shown in yellow in the figure below is a region of the uniform magnetic field of width a=1.89 cm that is used to deflect a beam of accelerated electrons entering this region normally with speed v=11.25 x 106 m/s. After leaving the deflection region, electrons hit the screen, distance b=12.7 cm away, to produce an image. B d a When the field is zero, the electrons would hit the screen in the center, at point O. With the field B=24.7 G, electrons hit the screen at point P, distance d above point O. Find this displacement d caused by the magnetic deflection: d= cm.
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