91Ó°ÊÓ

The direction of an electromagnetic wave is along the negative y-axis.

The direction of the electric field is along the positive z-axis.

The magnitude of the electric field is, $\left|\stackrel{→}{\text{E}}\right|=100\text{V/m}$.

Here, we need to use the equation for the magnetic field associated with an electromagnetic wave to find the magnitude of the magnetic field. The direction of the magnetic field can be calculated using the vector identity of the cross product that the propagating wave is perpendicular to both the electric and magnetic field directions.

Formulae:

The magnitude of the magnetic field of a light wave,

$\text{B}=\frac{\text{E}}{\text{c}}$...........................(1)

The vector identity of three directional vectors, $∆k×∆i=∆j$.............................(2)

Using the given data in equation (1), we can get the magnitude of the magnetic field as follows:

$\begin{array}{rcl}B& =& \frac{100\text{V/m}}{3×{10}^8\text{m/s}}\\ & =& 3.3×{10}^{-7}\text{T}\\ & & \end{array}$

Hence, the value of the magnetic field is $3.3×{10}^{-7}\text{T}$.

As the electromagnetic wave is along the negative y-axis $\left(-\hat{j}\right)$, the direction of the magnetic field also must be along the negative axis, that is,$\left(-\hat{i}\right)$ according to equation (2), as the direction of the electric field is along the positive$\left(+k\right)$ axis.

Hence, the direction of the magnetic field is along the negative x-axis.