Consider a region where a 35-volt-per-meter electric field and a 20-millitesla magnetic field exist and are along the same direction. If the electron is in the said region, is moving at a direction 20 degrees counter-clockwise from the direction of the magnetic field, and is experiencing a total force of 5 x 10-18 newtons, determine the speed of the electron. Assume the velocity vector, the electric field, and the magnetic field are all lying on the same plane.
Consider a region where a 35-volt-per-meter electric field and a 20-millitesla magnetic field exist and are along the same direction. If the electron is in the said region, is moving at a direction 20 degrees counter-clockwise from the direction of the magnetic field, and is experiencing a total force of 5 x 10-18 newtons, determine the speed of the electron. Assume the velocity vector, the electric field, and the magnetic field are all lying on the same plane.
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Transcribed Image Text:Consider a region where a 35-volt-per-meter electric field and a 20-millitesla magnetic field exist and are along the
same direction. If the electron is in the said region, is moving at a direction 20 degrees counter-clockwise from the
direction of the magnetic field, and is experiencing a total force of 5 × 10-18 newtons, determine the speed of the
electron. Assume the velocity vector, the electric field, and the magnetic field are all lying on the same plane.
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