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1. An electron (Q=16x10^-20 C, m=1x10^-30 kg) moving at half a megameter per second up the page enters a region with a uniform magnetic field of 1 T directed out of the page. Find the initial magnetic force magnitude and direction (in page coordinates) on the particle and find the radius of the curve it will follow.

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Step-by-step explanation:

It is given that,

Charge on electron,
q=16* 10^(-20)\ C

Mass of the electron,
m=9.1* 10^(-31)\ kg

Speed of the electron,
v=0.5\ Mm/s=0.5* 10^6\ m/s

Magnetic field, B = 1 T (directed out of the page)

Let F is the magnetic force acting on the electron. It is given by :


F=qvB\ sin\theta

Here,
\theta=90^(\circ)


F=qvB


F=16* 10^(-20)\ C* 0.5* 10^6\ m/s* 1\ T


F=8* 10^(-14)\ N

Using the right hand rule, the direction of magnetic force is upward to the plane of the paper. Also, the electron will follow the circular path. It is given by :


r=(mv)/(qB)


r=(9.1* 10^(-31)\ kg* 0.5* 10^6\ m/s)/(16* 10^(-20)\ C* 1\ T)


r=2.84* 10^(-6)\ m

Hence, this is the required solution.

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User Muhammad Imran
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