In a region magnetic field along `x` axis changes with time according to the given graph.
If time period, pitch and radius of helix path are `T_(0),P_(0)` and `R` respectively then which of the following is incorrect if the paticle is projected at an angle `theta_(0)` with the positive `x`-axis in `x-y` plane from origin:

In a region, magnetic field along x-axis changes according to the graph given in fig. If time period, pitch and radius of helix path are T_0, P_0 and R_0 , respectively, and if the particle is projected at an angle theta_0 with the positive x-axis towards positive y-axis in x-y plane, then select the correct statement:

In a region, magnetic field along x-axis changes according to the graph given in fig. If time period, pitch and radius of helix path are T_0, P_0 and R_0 , respectively, and if the particle is projected at an angle theta_0 with the positive x-axis towards positive y-axis in x-y plane, then select the correct statement

A cylindrical conductor of radius R carrying current i along the axis such that the magnetic field inside the conductor varies as B=B_(0)r^(2)(0lt r leR) , then which of the following in incorrect?

In a certain region of space, there exists a uniform and constant electric field of magnitude E along the positive y-axis of a coordinate system. A charged particle of mass m and charge -q (qgt0) is projected form the origin with speed 2v at an angle of 60^@ with the positive x-axis in x-y plane. When the x-coordinate of particle becomes sqrt3mv^2//qE a uniform and constant magnetic. field of strength B is also switched on along positive y-axis. x-coordinate of the particle as a function of time after the magnetic field is switched on is

In a certain region of space, there exists a uniform and constant electric field of magnitude E along the positive y-axis of a coordinate system. A charged particle of mass m and charge -q (qgt0) is projected form the origin with speed 2v at an angle of 60^@ with the positive x-axis in x-y plane. When the x-coordinate of particle becomes sqrt3mv^2//qE a uniform and constant magnetic. field of strength B is also switched on along positive y-axis. z-coordinate of the particle as a function of time after the magnetic field is switched on is

In a certain region of space, there exists a uniform and constant electric field of magnitude E along the positive y-axis of a coordinate system. A charged particle of mass m and charge -q (qgt0) is projected form the origin with speed 2v at an angle of 60^@ with the positive x-axis in x-y plane. When the x-coordinate of particle becomes sqrt3mv^2//qE a uniform and constant magnetic. field of strength B is also switched on along positive y-axis. Velocity of the particle just before the magnetic field is switched on is

A charged particle is fired at an angle theta to a uniform magnetic field directed along the x- axis. During its motion along a helical path, if the pitch of the helical path is equal to the maximum distance of the particle from the x- axis

The electric potetnial in a region along x-axis varies with x according to the releation V(x) = 4 xx 5x^(2) . Then the incorrect statement is

A particle is moving in x–y plane. The x and y components of its acceleration change with time according to the graphs given in figure. At time t = 0 , its velocity is v_(0) directed along positive y direction. if a_(0) = (v_(0))/(t_(0)) , find the angle that the velocity of the particle makes with x axis at time t = 4t_(0) .