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- Thoroughly explain why electromagnetic radiation can be modeled as both a wave and a particle. Provide an example for each model, both wave and particle.I Review I Constants I Periodic Table A radio antenna broadcasts a 1.0 MHz radio wave with 20 kW of power. Assume that the radiation is emitted uniformly in all directions. Part A What is the wave's intensity 35 km from the antenna? Express your answer in watts per meter squared.1. A plane wave in air is incident normally upon the surface of a lossless, nonmagnetic dielectric medium with relative electrical permittivity of 25 at z=0. Incident E field has an amplitude of 10 V/m polarized in +x direction and is of frequency 1 Ghz. Give the total E-field Phasor expression in air. 2. For the problem (1), determine the average power density of the reflected wave, and that of the transmitted wave. 3. Define and explain standing wave ratio. (Give a verbal description and the associated expressions) 4. For the problem (1), sketch the E-field wave pattern (Amplitude versus distance from the boundary) in air medium, indicating all critical vales and compute the standing wave ratio in the medium.
- Plz correct solution.Compute the wavelength of the carrier wave of your favorite FM radio station. Enter the frequency (in MHz) of your favorite FM radio station. MHz Calculate the wavelength (in m).A laser has a power of 22.2 W and a beam radius of 0.478 mm. (a).Find.the.intensity of the laser. Enter a number. y defined? What factors affect the intensity of a beam of light? W/m (b) Suppose you were floating in space and pointed the laser beam away from you. What would your acceleration be? Assume your total mass, including equipment, is 74.8 kg and that the force is directed through your center of mass. Hint: The change in momentum is the same as in the nonreflective case. We know that the acceleration of an object is given by Newton's second law. How do we determine the net force acting on the accelerating object in this case? m/s (c) Calculate your acceleration if it were due to the gravity of a space station with mass 1.06 x 10° kg and center of mass 117.1 m away. m/s2 (d) Calculate the peak electric and magnetic fields of the laser. E max N/C B max %3D If you were planning to use your laser welding torch as a thruster to get you back to the station, don't bother because the…