You are designing a device that will change the direction of an incoming beam of electrons by 90 degrees (from +x to +y). You plan on doing so by shooting the beam into a square region of uniform magnetic field, as shown in the figure (qfig2.png) below. The incoming speed of the electrons is v=5×10° m/s, and they enter the region of uniform magnetic field 10 cm from the top of the region. Find the magnetic field strength in microteslas needed to deflect the particles by 90 degrees. Again, give your answer in microteslas to 1 decimal place. 10 cm B
You are designing a device that will change the direction of an incoming beam of electrons by 90 degrees (from +x to +y). You plan on doing so by shooting the beam into a square region of uniform magnetic field, as shown in the figure (qfig2.png) below. The incoming speed of the electrons is v=5×10° m/s, and they enter the region of uniform magnetic field 10 cm from the top of the region. Find the magnetic field strength in microteslas needed to deflect the particles by 90 degrees. Again, give your answer in microteslas to 1 decimal place. 10 cm B
Chapter11: Magnetic Forces And Fields
Section: Chapter Questions
Problem 28P: An electron in a TV CRT moves with a speed of 6.0107 m/s, in a direction perpendicular to Earth's...
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The answer to this question IS NOT 56.93 μT. The person who said that got it wrong. Thank you.
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