If the magnetic field is parallel to the positive y-axis and the charged particle is moving along the positive x-axis (Fig.), which way would the Lorentz force be for (a) an electron (negative charge), (b) a proton (positive charge).

If the magnetic field is parallel to the positive y-axis and the charged particle is moving along the positive x-axis (Fig. 4.4), which way would the Lorentz force be for (a) an electron (negative charge), (b) a proton (positive charge).

If the magnetic field is parallel to the positive y-axis and the charged particle is moving along the positive x-axis (Fig. 4.4), which way would the Lorentz force be for (a) an electron (negative charge), (b) a proton (positive charge).

If the magnetic field is parallel to the positive y-axis and the charged particle is moving along the positive x-axis (figure ), which way would the Lorentz force be for (a) and electron (negative charge), (b) a proton (positive charge)

If the magnetic field is parallel to the positive Y-axis and the charged particle is moving along the positive X-axis as per figure, which way would the Lorentz force be for (a) an electron (negative charge), (b) a proton (positive charge).

If the magnetic field is parallel to the positive y axis and the charged particle is moving along the positive x axis, then what would be the direction of Lorentz force be for:- an electron

If the magnetic field is parallel to the positive y axis and the charged particle is moving along the positive x axis, then what would be the direction of Lorentz force be for:- a proton.

A positively charged particle is moving along the positive x-axis in a unifom electric field vec E= E_0hatj and magnetic field vec B = B_0hat k (where E_0 and B_0 are positive constants), then

A charged particle is moved along a magnetic field line. The magnetic force on the particle is