Write the equation of the received power of isotropic antenna.

Find the received power in watts if transmitted power is 1 watt, recieve and transmit antenna...

Find the received power in watts if transmitted power is 1 watt, recieve and transmit antenna gains each 1 dB, distance between receiver and transmitter is 3 meters, and wavelength 30 cm. Assume Pi = 3.

Write the groundwater flow equation for transient, heterogeneous, isotropic conditions. Define all variables and say what...

Write the groundwater flow equation for transient, heterogeneous, isotropic conditions. Define all variables and say what their SI (metric) units are.

Derive the equation of path for a 2D isotropic harmonic oscillator and explain Lissajous curves?

Derive the equation of path for a 2D isotropic harmonic oscillator and explain Lissajous curves?

A transmitter in space radiates 1W at 150MHz in the form of pulses with a rate...

A transmitter in space radiates 1W at 150MHz in the form of pulses with a rate of 100 per sec, its antenna has isotropic characteristics. How many quanta will be received per pulse by an isotropic antenna at a distance of 1000km.

Design horn antenna which have 25 dB power gain at 8 GHz and HPBW of 1.25...

Design horn antenna which have 25 dB power gain at 8 GHz and HPBW of 1.25 rad in E plane. Determine the HPBW in H plane and directivity of this antenna if the flare angle is 70 degree . Please comment on this antenna design. Then, explain how to improve the antenna efficieny?

Consider the Voyager spacecraft, transmit frequency 8.4 GHz, transmitter power PT= 21.3 W, transmitting antenna gain...

Consider the Voyager spacecraft, transmit frequency 8.4 GHz, transmitter power PT= 21.3 W, transmitting antenna gain GT is 6.5 x 104 W/W at a distance of 6.8 x 1011m from Jupiter to Earth. Both the Voyager and earth based antennas are parabolic dishes whose cross sectional area can be assumed equal to the effective antenna aperture. a) Calculate the Voyager antenna gain (dB) and diameter b) Calculate the receiver antenna gain (dB) with a dish diameter of 64m. c) Calculate...

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...

Find a power series solution of the given differential equation. Write the solution in terms of...

Find a power series solution of the given differential equation. Write the solution in terms of power series of familiar elementary functions. a. (3? − 1)?′ + 3? = 0 b. ?′ − 10?? = 0

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

How much power is received by a radar receiver located 100 km from a jammer with...

How much power is received by a radar receiver located 100 km from a jammer with the fol- lowing characteristics? Assume that the radar antenna has an effective area of 1.2 square meters and that the main beam is pointed in the direction of the jammer. Consider only atmospheric attenuation, excluding the effects of, for example, component loss. Provide the answer in terms of watts and dBm (dB relative to a milliwatt.) Jammer peak power 100 watts Jammer antenna gain...