Find the half-power beamwidth (HPBW) and first-null beamwidth (FNBW), in radians, for the following normalized radiation intensity U(?)=cos(4?) where (0? ? ? ?/2, 0??? 2?). HPBW= _____ radians and FNBW= _____ radians
Find the half-power beamwidth (HPBW) and first-null beamwidth (FNBW), in radians, for the following normalized radiation...
sketch and solution please اسئلة الواهب ليل صموا سیاه Homework 1 1) Sketch the radiation patter and find the half-power beamwidth (HPBW) and first-null beamwih! (FNBW), in degrees, for the following normalized radiation intensities (all for the range 0 5 0 590",0 ک (360° ک (a) U (0) = cos0 (b) U (0) = cos26 (c) U (0) = COS(20) (d) U (0) = cos (20) (e) U (0) = cos(30) (5) U (0) = cos" (30) agle. Find the...
The radiation intensity of an antenna is U=Um cos where Um is the maximum radiation intensity. The radiation intensity U has a value only in upper hemisphere (0 ≤ ≤ /2 and 0 ≤ ≤ 2) and is zero in the lower hemisphere. 1. Express the radiation pattern in a polar plot 2. On the same diagram indicate the half power points 3. Calculate the half power beamwidth 4. Calculate the directivity in dBi.
Problem 2 Consider the following normalized radiation intensity from an antenna. ΡΑθ,0)--cos θ, f or 0 θ , 0 otherwise 2 Determine the pattern solid angle ΩΡ" (10 points) a)
Question 1 The power radiated by a lossless antenna is 10 watts. The directional characteristics of the antenna are represented by the radiation intensity of U = 2cos3θ watts/unit solid angle. Find the (a) Maximum power density at a distance of 1000 m (assume far-field distance) (b) Maximum directivity (c) Maximum gain Question 2 In target-search ground-mapping radars it is desirable to have echo power received from a target, of constant cross section, to be independent ofits range. For one such application, the desirable radiation intensity...
2. a. Discuss the practical importance of the antenna beam width b. For an Omni-directional antenna the measurements show the Half Power Beam Width (HPBW) in vertical and horizontal planes are 30° and 20° respectively, antenna has loss resistance of 25Ω and efficiency η-0.8,Find: i. Antenna's gain in dB, and ii. Radiation resistance. 2. a. Discuss the practical importance of the antenna beam width b. For an Omni-directional antenna the measurements show the Half Power Beam Width (HPBW) in vertical...
You are an antenna engineer and you are asked to design a high directivity/gain antenna for a space-borne communication system operating at 10 GHz. The specifications of the antenna are such that its pattern consists basically of one major lobe and, for simplicity, no minor lobes (if there are any minor lobes they are of such very low intensity and you can assume they are negligible/zero). Also it is desired that the pattern is symmetrical in the azimuthal plane. In...
Problem 5 Source 1 Source-1 in the figure emits electromagnetic radiation of 15 MHz in every direction with an average power of 800 W. The radiation is detected at point P 125 m located 125 m away from the source (a) [4 points] Calculate the intensity of the radiation and the amplitude of the electric field at P. Source 1 Source 2 A second coherent source, in phase with Source-1, is positioned 400 m away of Source-1. (b) [4 points]...
1- 2- Question 31 Determine all solutions of the equation in radians. Find cos. given that cosx and x terminates in 0<x< 52415 o to -2-15 4 10 D Question 32 Solve the problem. Find the exact value of x in the figure. 10 60 lys © 2013 Svo 196
HW 1_Chi 1) Find the energies of the following signals below. 2) Find the power and the rms value of the signal belo a) x(-4) b)x(-t) c) x(2-4) 3) for the signal x(t) shown below, sketch the signals b) (-4)[u(t-2)-(-4)] 4) sketch the following signals a) uſt-5) - ult-7) 5) Simplify the following expressions: (a) (2+2) (1) (+3)sw) (c) le='cos (31 – 60°)80) () (sin ka ) s() 6) Evaluate the following integrals: (a) , 8(7)x(1 – t)dt (b) *()8(1-1)dt...
how do i find the amount of lead needed to block 99% of the gamma radiation ?? LEAD PLATES TOTAL CPM % Radiation Intensity 1 30.94 806 407 2 15 62 c) Co with lead plates: penetration factor (t) of gamma radiation i. In steps c)-e), equation (1) will be solved algebraically using only one value of I/1. and the requisite value of d. In every case, the first plate will cut out the beta particles, so you will be...