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Graph of the Lorentz Force vs. Magnetic Induction Vector

The Lorentz force is the force experienced by a charged particle moving through a magnetic field. It is given by the formula:

F = q(v x B)

Where: - F is the Lorentz force experienced by the particle, - q is the charge of the particle, - v is the velocity vector of the particle, and - B is the magnetic induction vector.

To understand the graph of the Lorentz force as a function of the magnetic induction vector, we need to consider the behavior of the force for different values of the magnetic induction vector.

The Lorentz force is perpendicular to both the velocity vector and the magnetic induction vector. It is maximum when the velocity vector and the magnetic induction vector are perpendicular to each other. In this case, the force is given by:

F = qvB

When the velocity vector and the magnetic induction vector are parallel or anti-parallel, the Lorentz force is zero.

Therefore, the graph of the Lorentz force as a function of the magnetic induction vector will be a sinusoidal curve, with the maximum value occurring when the magnetic induction vector is perpendicular to the velocity vector.

Unfortunately, I couldn't find specific numerical values or a graph for the Lorentz force as a function of the magnetic induction vector in the search results. However, I hope the explanation provided above helps you understand the relationship between the Lorentz force and the magnetic induction vector.

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