Radiation intensity of this antenna. Find the directivity in the given function.

Demonstrate that the intensity of radiation from a black body in equilibrium with radiation is given...

Demonstrate that the intensity of radiation from a black body in equilibrium with radiation is given by I = 1/4 cu. also show that the Stefan-Boltzmann constant is σ = 1/4 ca with a = 7.56 x10 ^ -16, u is the density of the radiation energy

A radio antenna broadcasts a 1.0 MHz radio wave with 25 kW power. Assume the radiation...

A radio antenna broadcasts a 1.0 MHz radio wave with 25 kW power. Assume the radiation is emitted uniformly in all directions. 1) what is the wave's intensity 30 km from the antenna 2) what is the electric field amplitude at this distance? PLEASE SHOW ALL WORK

Use matlab to design the antenna and explain the steps. Plot the radiation pattern of the...

Use matlab to design the antenna and explain the steps. Plot the radiation pattern of the broadside array (polar plot) for n = 6,d = 0.75? and ? = 0°.

Determine the shortest length of a dipole antenna operating at 5 GHz so that the antenna...

Determine the shortest length of a dipole antenna operating at 5 GHz so that the antenna radiation pattern exhibits a null at an elevation angle of 60o. Answer: 8 cm Please show all work to get the given answer.

A dish antenna having a diameter of 22.0 m receives (at normal incidence) a radio signal...

A dish antenna having a diameter of 22.0 m receives (at normal incidence) a radio signal from a distant source. The radio signal is a continuous sinusoidal wave with amplitude Emax = 0.800 µV/m. Assume the antenna absorbs all the radiation that falls on the dish. A dish antenna on top of a tall tower extending above the trees. The dish points upward and to the left. Three parallel wavy arrows come come downward and to the right toward the...

A dish antenna with a diameter of 15.0 m receives a beam of radio radiation at...

A dish antenna with a diameter of 15.0 m receives a beam of radio radiation at normal incidence. The radio signal is a continuous wave with an electric field given by: E = 0.75 sin[(0.838/m)x − (2.51 × 108 /s)t] N/C. Here, x is in meters and t is in seconds. Assume that all the radiation that falls on the dish is absorbed. (a) Calculate the speed of the radiation. Don’t assume it must be equal to c: use the...

How does an antenna behave when it is cooled so that its black-body radiation is emitting...

How does an antenna behave when it is cooled so that its black-body radiation is emitting energy at its resonant frequency? Edit: To clarify, its not how they're related in general, but how might thermal radiation and resonance interact with each other when their spectra are aligned well? Edit: Also, I'm sure that the thermal radiation spectra that have a significant peaks are associated with incredibly high temperatures, and peak at incredibly small wavelengths, rendering such an antenna completely impractical...

Model the antenna in NEC .Show the radiation pattern. Please show the steps of how to...

Model the antenna in NEC .Show the radiation pattern. Please show the steps of how to do it in NEC. Design a resonant ring of N turns, with a circumference of λ / 4, a frequency of 10 MHz. The ring will be powered by a two wire transmission line, with impedance 300 ohm characteristic. Disregarding proximity effects, determine: a) the nearest integer number of turns so that the antenna impedance be 300 ohms b. the input impedance of the...

Two identical wave sources separated by one half wavelength are operated with a phase difference of...

Two identical wave sources separated by one half wavelength are operated with a phase difference of φ. Derive an expression for the intensity of the resultant radiation pattern, as a function of angle, in terms of the intensity of a single antenna.

The intensity of the electromagnetic radiation from the sun reaching the Earth’s upper atmosphere is 1.37...

The intensity of the electromagnetic radiation from the sun reaching the Earth’s upper atmosphere is 1.37 kW/m2 . Assume that the average wavelength for this radiation is 680 nm. a. Find the number of photons per second that strike a 1 m by 3 m solar panel directly facing the sun on an orbiting satellite. b. What is the number of photon per second if the panel is tilted 25degrees away from the sun?