Fundamentals of Applied Electromagnetics (7th Edition)
7th Edition
ISBN: 9780133356816
Author: Fawwaz T. Ulaby, Umberto Ravaioli
Publisher: PEARSON
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Question
Chapter 1.4, Problem 4E
(a)
To determine
The amplitude
(b)
To determine
The wavelength of the given wave.
(c)
To determine
The attenuation constant of the given wave.
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EXAMPLE 7.2
Consider the two equally-likely signals s₁ (t) and s2(t) that are transmitted, over an AWGN channel
with the noise power spectral density of No/2, to represent bits 1 and 0, where we have:
S1(t)=-S2(t)=√√2 exp(-2t)u(t)
The receiver makes its decision solely based on observation of the received signal over a restricted
interval of interest. Determine the average bit error rate in terms of Q-function, assuming the
interval is [0,3]. Contrast numerically with the performance of an optimum receiver that observes.
all the received signal, i.e., the interval of interest is (-∞, ∞).
1) Compute the voltages at each receiver branch (Vo ad V₁ see block diagram next page) for each of
the possible transmitted signals:
Transmitted signals are generated as shown below:
Binary wave in
unipolar form
(a)
With basis functions:
Inverter
41(t)
Product
modulator
Product
modulator
42(t)
BFSK
+
signal
+
Si(t)
P1(t)=
√Eb
=
cos (2лfit+0₁)
$2(t)
42(t)=
√Eb
层
cos (2лf2t+
t+02)
Generating signals:
2E
Si(t)
cos (2лfit+0₁), bit=0
Ть
SBFSK (t)
2E
|$2(t)=
cos (2лf2t+02), bit=1
Find the disruptive voltage and visual corona voltage for 3-phase line consisting of 2.5 cm diameter conductor
spaced equilateral triangular formation of 4 m. The following data can be assumed, temperature 25°c, pressure
73 cm of mercury, surface factor 0.84, irregularity factor 0.72.
Chapter 1 Solutions
Fundamentals of Applied Electromagnetics (7th Edition)
Ch. 1.3 - Prob. 1CQCh. 1.3 - What is Coulombs law? State its properties.Ch. 1.3 - What are the two important properties of electric...Ch. 1.3 - What do the electrical permittivity and magnetic...Ch. 1.3 - What are the three branches and associated...Ch. 1.4 - How can you tell if a wave is traveling in the...Ch. 1.4 - Prob. 7CQCh. 1.4 - Why does a negative value of 0 signify a phase...Ch. 1.4 - Consider the red wave shown in Fig. E1.1. What is...Ch. 1.4 - The wave shown in red in Fig. E1.2 is given by...
Ch. 1.4 - The electric field of a traveling electromagnetic...Ch. 1.4 - Prob. 4ECh. 1.4 - The red wave shown in Fig. E1.5 is given by...Ch. 1.4 - An electromagnetic wave is propagating in the z...Ch. 1.5 - What are the three fundamental properties of EM...Ch. 1.5 - What is the range of frequencies covered by the...Ch. 1.5 - Prob. 11CQCh. 1.6 - Express the following complex functions in polar...Ch. 1.6 - Show that 2j=(1+j). (See EM.)Ch. 1.7 - Prob. 12CQCh. 1.7 - How is the phasor technique used when the forcing...Ch. 1.7 - A series RL circuit is connected to a voltage...Ch. 1.7 - A phasor voltage is given by V=j5V. Find (t).Ch. 1 - A 2 kHz sound wave traveling in the x direction in...Ch. 1 - For the pressure wave described in Example 1-1,...Ch. 1 - A harmonic wave traveling along a string is...Ch. 1 - A wave traveling along a string is given by...Ch. 1 - Two waves, y1(t) and y2(t), have identical...Ch. 1 - The height of an ocean wave is described by the...Ch. 1 - A wave traveling along a string in the +x...Ch. 1 - Two waves on a string are given by the following...Ch. 1 - Give expressions for y(x, t) for a sinusoidal wave...Ch. 1 - An oscillator that generates a sinusoidal wave on...Ch. 1 - Prob. 11PCh. 1 - Given two waves characterized by...Ch. 1 - The voltage of an electromagnetic wave traveling...Ch. 1 - A certain electromagnetic wave traveling in...Ch. 1 - Prob. 15PCh. 1 - Prob. 16PCh. 1 - Complex numbers z1 and z2 are given z1=3j2z2=4+j3...Ch. 1 - Complex numbers z1 and z2 are given by...Ch. 1 - If z=2+j4, determine the following quantities in...Ch. 1 - Find complex numbers t=z1+z2 and s=z1z2, both in...Ch. 1 - Complex numbers z1 and z2 are given by...Ch. 1 - If z=3j5, find the value of ln(z).Ch. 1 - If z = 3 j4. find the value of ez.Ch. 1 - Prob. 24PCh. 1 - A voltage source given by s(t)=25cos(2103t30)(V)...Ch. 1 - Find the phasors of the following time functions:...Ch. 1 - Find the instantaneous time sinusoidal functions...Ch. 1 - A series RLC circuit is connected to a generator...Ch. 1 - The voltage source of the circuit shown in Fig....
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- A 3-phase, 4-wire distributor supplies a balanced voltage of 400/230 V to a load consisting of 8 A at p.f. 0-7 lagging for R-phase, 10 A at p.f. 0-8 leading for Y phase and 12 A at unity p.f. for B phase. The resistance of each line conductor is 0.4 2. The reactance of neutral is 0.2 2. Calculate the neutral current, the suppl voltage for R phase and draw the phasor diagram. The phase sequence is RYB. VR Phasor diagramarrow_forwardThe three line leads of a 400/230 V, 3-phase, 4-wire supply are designated as R, Y and B respectively. The fourth wire or neutral wire is designated as N. The phase sequence is RYB. Compute the currents in the four wire when the following loads are connected to this supply: From R to N: 25 kW, unity power facto. From Y to N: 20 kVA, 0-7 lag. From B to N: 30 kVA, 0-6 lead.arrow_forward2) Is the following set of basis functions orthogonal? 41(t) = √== cos (2Ãfet), 0 ≤1≤T₁ P2(t)= - \ con(A). 2 VTS sin (2лfet), 0arrow_forwardPick up the correct answer It must be accurate 2. the minimum phase-neutral voltage at which corona occurs is A. Visual critical voltage B. Receiving voltage C. String voltage D. Critical disruptive voltage. 3. If the length of a transmission line increases, its inductance is A. Increases B. Decreases C. Constant 4. Photo cells are connected in parallel in order to A. Increase voltage rating D. None of them B. Increase current rating C. Increase life cells. D. All of the them 6. Best diversity factor will be at: B. More D. diversity factor >1 than sending voltage A. diversity factor <1 B. diversity factor = 1 C. diversity factor = zero 7. When the voltage regulation is positive, then receiving voltage is A. Less C. Equal D. None of the them 8. Fill factor of solar cell using the data: Pmax= 10 w, Voc= 5 V, Isc= 1 A A.5 9. The string efficiency can be reduced by using: B. 2 C. 1 D. 10 A. Guard ring B. Equal insulator voltage C. less cross arm D. None of them 10. If the spacing between…arrow_forwardDon't use ai to answer I will report you answerarrow_forwardPick up the correct answer along with evde ce for explanation 2. Taking into account cost, most of the high-voltage transmission lines are A. Underground. B. Overhead C. Either of the above D. None of the aber 3. If the maximum load is equal to plant capacity. The plant capacity factor is: A. 1 B. zero C. >1 D. <1 5. Sum of continuous ratings of all the equipment connected to electric power system is defined as: A. Maximum demand B. Connected load 6. Cables have more effective in B. Capacitance C. Daily average load than over head transmission lines C. Resistance D. Load variation D. All of the abov 100% A. Inductance 7. By which of the following methods string efficiency can be equal A. Using a guard ring B. Equal insulator voltage C. Using long cross arm D. Non of them -10. If the spacing between the conductors is decrease, the inductance of the line will be: A. Increase B. decreases C. Not effected D. Non of them 12. If the length of a transmission line increases, its inductance is…arrow_forwardQ1: What is the orientation of voltage regulation value (positive or negative) of alternator loaded by capacitive load? Explain the effect of armature reaction on voltage regulation for this load? Draw the load characteristics of alternator for capacitive, inductive, and inductive loads?arrow_forwardI what happend if can IY = 125 lead, IB = 125 unity IR=89.91 unity IB = 125-> Lag 0.8 Iy=125 IB 36.86 lag 0.8 Ir< 36-86 IN=IR+IN+IB FR 89.910+125<-120-36.86+1252+120 -36.86arrow_forwardManual solution only, no Al usedarrow_forwardarrow_back_iosSEE MORE QUESTIONSarrow_forward_ios
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