A charge particle `(!=10^(-4)C)` is released from rest at `z=0` in magnetic fiedl given as `vecB=B_(0)cos(omegat+kz)hatj` where `B_(0)=3xx10^(-5)T` and `B_(1)=2xx10^(-6)T`. Then the rms alue of force acting on particle is?

The magnetic field of a plane electromagnetic wave is given by: vec(B)=B_(0)hat(i)-[cos(kz- omegat)]+B_(1)hat(j)cos(kz+omegat) where B_(0)=3xx10^(-5)T and B_(1)=2xx10^(-6)T . The rms value of the force experienced by a stationary charge Q=10^(-4)C at z=0 is close to:

The magnetic field of a plane electromagnetic wave is given by: vec(B)=B_(0)hat(i)-[cos(kz- omegat)]+B_(1)hat(j)cos(kz+omegat) where B_(0)=3xx10^(-5)T and B_(1)=2xx10^(-6)T . The rms value of the force experienced by a stationary charge Q=10^(-4)C at z=0 is close to:

The magnetic field of a plane electromagnetic wave is given by: vec(B)=B_(0)hat(i)[cos(kz- omegat)]+B_(1)hat(j)cos(kz+omegat) where B_(0)=3xx10^(-5)T and B_(1)=2xx10^(-6)T . The rms value of the force experienced by a stationary charge Q=10^(-4)C at z=0 is close to:

A particle of mass 10^(-3) kg and charge 1.0 c is initially at rest At time t=0 the particle comes under the influence of an electric field hat (E )(t)=E_(0) sin omega t hat(i) where E_(0) =1.0 N C^(-1) and omega =10^(3) rad s^(-1) consider the effect of only the electrical force on the particle .Then the maximum speed in m s^(-1) attained by the particle at subsequent times is ______________

A particle of mass 10^(-3) kg and charge 1.0 c is initially at rest At time t=0 the paritcle comes under the influence of an electric field hat (E )(t)=E_(0) sin omega t hat(i) where E_(0) =1.0 N C^(-1) and omega =10^(3) rad s^(-1) consider the effect of only the electrical force on the particle .Then the maximum speed in m s^(-1) attained by the paritcle at subsequent times is ______________

A positive charge particle to charge q& mass m is released at origin.There are unifrom magnetic and electric field in the space given by vecE=E_(0)hatj & vecB = B_(0)hatk , where E_(0) & B_(0) are constants.Find the y coordinate of the particle at time t .

The magnetic field in a plane electromagnetic wave is given by B_(y)=(2xx10^(-7)) T sin (0.5xx10^(3)x+1.5xx10^(11)t) . Write an expression for the electric field.

A charged particle of specific charge (Charge/mass) alpha is released from origin at time t=0 with a velocity given as vecv=v_(0)(hati+hatj) The magnetic field in region is uniform with magnetic induction vecB=B_(0)hati . Coordinates of the particle at time t=(pi)/(B_(0)alpha) are:

The magnetic field in a plane electromagnetic wave is given by B_(y) = 2 xx 10^(-7) sin (0.5 xx 10^(3)x + 1.5 xx 10^(11) t) . This electromagnetic wave is