An electron has an initial velocity of (10.5j +13.0k) km/s and a constant acceleration of(1.30×10¹2 m/s²)i in a region in which uniformelectric and magnetic fields are present. If B =(400μT)i, find the electric field EEx?Ey?Ez?

Concept: In this question, we will use the Concept of Lorentz Force. The Lorentz Equation is given…

An electron has an initial velocity of (10.5j + 13.0k) km/s and a constant acceleration of (1.30x×1012 m/s²)i in a region in which uniform electric and magnetic fields are present. If B = (400μT)i, find the electric field E Ex? Ey? Ez?

An electron has an initial velocity of (10.5j + 13.0k) km/s and a constant acceleration of (1.30x×1012 m/s²)i in a region in which uniform electric and magnetic fields are present. If B = (400μT)i, find the electric field E Ex? Ey? Ez?

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Question

An electron has an initial velocity of (10.5j +
13.0k) km/s and a constant acceleration of
(1.30×10¹2 m/s²)i in a region in which uniform
electric and magnetic fields are present. If B =
(400μT)i, find the electric field E
Ex?
Ey?
Ez?

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