Answer:
Intensity = 11.56W/m²
The energy flowing through the given area is 4.55 J
Explanation:
The expression for the intensity of the electromagnetic wave is,
[tex]I = \frac{1}{2} C{ {\varepsilon _0}E_m^2[/tex]
Here,[tex]\varepsilon _0[/tex] is the permittivity of the free space,
[tex]E_m[/tex] is the electric field amplitude and
c is the speed of the light.
substitute
⁸m/s for c
8.85×10 −12 C² /N⋅m² for [tex]{\varepsilon _0}[/tex]
and 93.3 V/m for [tex]{E_{\rm{m}[/tex]
[tex]I = \frac{1}{2} \times (3\times10^8)\times(8.85\times10^-^1^2)(93.3)\\\\I = 11.56W/m^2[/tex]
The expression for the energy is,
E = I×A×t
Here, I is the intensity of the electromagnetic wave,
A is the area, and
t is the time.
Substitute
11.56W/m² for I
0.0287m ² for A
13.7s for t
[tex]E = (11.56)\times(0,0287)\times(13.7)\\E = 4.55J[/tex]
The energy flowing through the given area is 4.55 J
