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Exercises for The Cross Product
https://math.libretexts.org/Courses/Georgia_State_University_-_Perimeter_College/MATH_2215%3A_Calculus_III/12%3A_Vectors_and_the_Geometry_of_Space/Exercises_for_The_Cross_Product
57) [T] The force vector $\vecs F$ acting on a proton with an electric charge of $1.6×10^{−19}\,C$ (in coulombs) moving in a magnetic field $\vecs B$ where the velocity vector $\vecs v$ is gi...57) [T] The force vector $\vecs F$ acting on a proton with an electric charge of $1.6×10^{−19}\,C$ (in coulombs) moving in a magnetic field $\vecs B$ where the velocity vector $\vecs v$ is given by $\vecs F=1.6×10^{−19}(\vecs v×\vecs B)$ (here, $\vecs v$ is expressed in meters per second, $\vecs B$ is in tesla [T], and $\vecs F$ is in newtons [N]).
12.4E: Exercises for The Cross Product
https://math.libretexts.org/Courses/Misericordia_University/MTH_226%3A_Calculus_III/Chapter_12%3A_Vectors_and_the_Geometry_of_Space/1.08%3A_Exercises_for_The_Cross_Product
57) [T] The force vector $\vecs F$ acting on a proton with an electric charge of $1.6×10^{−19}\,C$ (in coulombs) moving in a magnetic field $\vecs B$ where the velocity vector $\vecs v$ is gi...57) [T] The force vector $\vecs F$ acting on a proton with an electric charge of $1.6×10^{−19}\,C$ (in coulombs) moving in a magnetic field $\vecs B$ where the velocity vector $\vecs v$ is given by $\vecs F=1.6×10^{−19}(\vecs v×\vecs B)$ (here, $\vecs v$ is expressed in meters per second, $\vecs B$ is in tesla [T], and $\vecs F$ is in newtons [N]).
Exercises for The Cross Product
https://math.libretexts.org/Courses/Montana_State_University/M273%3A_Multivariable_Calculus/12%3A_Vectors_and_the_Geometry_of_Space/12.4%3A_The_Cross_Product/Exercises_for_The_Cross_Product
57) [T] The force vector $\vecs F$ acting on a proton with an electric charge of $1.6×10^{−19}\,C$ (in coulombs) moving in a magnetic field $\vecs B$ where the velocity vector $\vecs v$ is gi...57) [T] The force vector $\vecs F$ acting on a proton with an electric charge of $1.6×10^{−19}\,C$ (in coulombs) moving in a magnetic field $\vecs B$ where the velocity vector $\vecs v$ is given by $\vecs F=1.6×10^{−19}(\vecs v×\vecs B)$ (here, $\vecs v$ is expressed in meters per second, $\vecs B$ is in tesla [T], and $\vecs F$ is in newtons [N]).

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