A charge particle is moving along positive y-axis in uniform electric and magnetic fields
`E=E_0hatk`
and `B=B_0hati`
Here `E_0` and `B_0` are positive constants.choose the correct options.

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 moves along positive y-axis with constant velocity in uniform electric and magnetic fields. Ilf magnetic fiedl is actig along positive x-axis, then, electric field should act along positive z-axis. Reason: To keep the charged particle undeviated the relation E=Bxxv must hold good.

A particle of charge q and mass m is projected from the origin with velocity v=v_0 hati in a non uniformj magnetic fiedl B=-B_0xhatk . Here v_0 and B_0 are positive constants of proper dimensions. Find the maximum positive x coordinate of the particle during its motion.

A particle of charge q and mass m is projected from the origin with velocity v=v_0 hati in a non uniformj magnetic fiedl B=-B_0xhatk . Here v_0 and B_0 are positive constants of proper dimensions. Find the maximum positive x coordinate of the particle during its motion.

A particle of mass m and having a positive charge q is projected from origin with speed v_(0) along the positive X-axis in a magnetic field B = -B_(0)hatK , where B_(0) is a positive constant. If the particle passes through (0,y,0), then y is equal to

A particle of mass m and having a positive charge q is projected from origin with speed v_(0) along the positive X-axis in a magnetic field B = -B_(0)hatK , where B_(0) is a positive constant. If the particle passes through (0,y,0), then y is equal to

Consider the motion of a positive point charge in a region where there are simultaneous uniform eletric and magnetic field E=E_0hatj and B=B_0hatj . At time t=0 , this charge has velocity v in the x-y-plane making an angle theta with the x-axis. Which of the following option(s) is (are) correct for time tgt0? a. If theta=0^0 the charge moves in a circular path in the xy-plane. b.If theta=0^0 the charge undergoes helical motion with constant pitch along the y-axis. c. If theta=1 0^0 the charge undergoes helicalmotion with its pitch increasing with time along the y -axis. d. If theta=90^@ the charge undergoes linear but accelerated motion along the y -axis.

Electric field and magnetic filed are given as E = E_(0) sin(omega t-kx) and B = B_0 sin(omega t-kx) then select the correct option

Electric field and magnetic filed are given as E = E_(0) sin(omega t-kx) and B = B_0 sin(omega t-kx) then select the correct option

Consider the motion of a positive point charge in a region where there are simultaneous uniform electic and magnetic field E=E_0hatj and B=B_0hatj . At time t=0 , this charge has velocity v inn the xy-plane making an angle theta with the x-axis. Which of the following option(s) is (are) correct for time tgt0? If theta=0^0 the charge moves in a circular path in the xy-plane. b. If theta=0^0 the charge undergoes helical motion with constant pitch along the y-axis. c. If theta=10^0 the charge undergoes helicalmotion with its pitch increasing with time along the y -axis. d If theta=90^@ the charge undergoes linear but accelerated motion along the y -axis.