A particle of mass m=3.1×10−5kg and charge q=43μC moves with a velocity v⃗ =−2.1×104ms−1 i^ along the x axis. a) Find the magnitude of magnetic field created by this charged particle at a distance d=37cm from the x axis. Draw a schematic diagram. b) Now, if the charged particle moves in an uniform external magnetic field, B⃗ =−3.8T k^ , then calculate the magnetic force experienced by the charged particle in unit vector notation. x component of the magnetic force y component of the magnetic force z component of the magnetic force c) What will be the shape of the path of the charged particle moving in the uniform external magnetic field. Draw a schematic diagram and calculate a geometric quantity that can help you explain the path. d) Along with the external magnetic field, if we now apply an external electric field on the charged particle in a particular direction - the particle moves in a stright line. Explain why. And calculate the external electric field in unit vector notation. x component of the electric field y component of the electric field z component of the electric field
A particle of mass m=3.1×10−5kg and charge q=43μC moves with a velocity v⃗ =−2.1×104ms−1 i^ along the x axis.
a) Find the magnitude of magnetic field created by this charged particle at a distance d=37cm from the x axis. Draw a schematic diagram.
b) Now, if the charged particle moves in an uniform external magnetic field, B⃗ =−3.8T k^ , then calculate the magnetic force experienced by the charged particle in unit vector notation.
x component of the magnetic force
y component of the magnetic force
z component of the magnetic force
c) What will be the shape of the path of the charged particle moving in the uniform external magnetic field. Draw a schematic diagram and calculate a geometric quantity that can help you explain the path.
d) Along with the external magnetic field, if we now apply an external electric field on the charged particle in a particular direction - the particle moves in a stright line. Explain why. And calculate the external electric field in unit vector notation.
x component of the electric field
y component of the electric field
z component of the electric field
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