A particle of charge 16xx10^(-18) coulom...

A particle of charge `16xx10^(-18)` coulomb moving with velocity `10m//s` along the `x-` axis enters a region where a magnetic field of induction B is along the `y-` axis, and an electric field of magnitude `10//m^(-1)` is along the negative `Z-` axis. If the charged particle continues moving along the `X-` axis, the magnitude to B is

Similar Questions

Explore conceptually related problems

A particle of charge 16xx10^(-18) coulomb moving with velocity 10m//s along the x- axis enters a region where a magnetic field of induction B is along the y- axis, and an electric field of magnitude 10^1//m^(-1) is along the negative Z- axis. If the charged particle continues moving along the X- axis, the magnitude to B is

A particle of charge -32 xx 10^(-18) coulomb moving with velocity 20 ms^(-1) along the x-axis enters a region where a magnetic field of induction B is along the y-axis, and an electric field of magnitude 5 xx 10^(4) V/m is along the negative z-axis. If the charged particle continues moving along the x-axis, the magnitude of B is

A particle of charge -16xx10^(-18) coulomb moving with velocity 10 ms^(-1) along the x- axis , and an electric field of magnitude (10^(4))//(m) is along the negative z- ais . If the charged particle continues moving along the x- axis , the magnitude of B is

If a particle of charge q is moving with velocity v along the y-axis and the magnetic field B is acting along the z-axis, use the expression vecF=q(vecvxxvecB) to find the direction of the force vecF acting on it.

A charge q moves with a velocity 2m//s along x- axis in a unifrom magnetic field B=(hati+2hatj+3hatk) tesla.

A proton is moving with a velocity of 5 xx 10^(5) m//s along the Y-direction. It is acted upon by an electric field of intensity 10^(5) V/m along the X-direction and a magnetic field of 1 Wb//m^(2) along the Z-direction. Then the Lorentz force on the particle is :

Similar Questions

Recommended Questions