The force on as charged particle due to electric and magnetic fields is given by `vecF=qvecE+qvecv+vecB`. Suppose `vecE` is along the X-axis and `vecB` along the Y-axis. In what direction and with whast minimum speed v should a positively charged particle be sent so that the net force on it is zero?

The force on a charged particle due to electric and magnetic fields is given by vecF=qvecE+qvecvXvecB . Suppose vecE is along the X-axis and vecB along the Y-axis. In what direction and with what minimum speed v should a positively charged particle be sent so that the net force on it is zero?

The force on a charged particle due to electric and magnetic fields is given by vecF=qvecE+qvecvXvecB . Suppose vecE is along the X-axis and vecB along the Y-axis. In what direction and with what minimum speed v should a positively charged particle be sent so that the net force on it is zero?

The force on a positively charged particle is given by vecF=qvecE+qvecvxxvecB .In a certain space there is a magnetic field B along y-axis and an electric field along x-axis.A positively charged particle is projected into this space.Find the direction and magnitude of minimum velocity so that it may pass on undeviated.

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

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

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

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

A charged particle moves with velocity v in a uniform magnetic field vecB . The magnetic force experienced by the particle is