Flying Electron
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Exercise:
An electron flies at constant speed parallel to the earth’s surface. Determine the magnitude and direction of the electric field at the position of the electron and discuss the result.
Solution:
Since the electron flies at constant height it is in a force equilibrium i.e. there is an upward electrostatic force F_E compensating the downward gravitational force F_G: sscFE sscFG longrightarrow e E m_e g It follows for the electric field E: E EF fracncmetimesncgnce E approx EP- Since the electron has a negative charge and the electrostatic force has to po upwards the electric field pos downwards. The magnitude of the electric field required to keep the electron on a horizontal trajectory is much weaker than typical fields in the air. It is therefore very unlikely that this will happen.
An electron flies at constant speed parallel to the earth’s surface. Determine the magnitude and direction of the electric field at the position of the electron and discuss the result.
Solution:
Since the electron flies at constant height it is in a force equilibrium i.e. there is an upward electrostatic force F_E compensating the downward gravitational force F_G: sscFE sscFG longrightarrow e E m_e g It follows for the electric field E: E EF fracncmetimesncgnce E approx EP- Since the electron has a negative charge and the electrostatic force has to po upwards the electric field pos downwards. The magnitude of the electric field required to keep the electron on a horizontal trajectory is much weaker than typical fields in the air. It is therefore very unlikely that this will happen.