How much power appears in one sideband of an AM signal of a 5-kW transmitter modulated by 80 percent?

Answers

Answer 1

Answer:

The modulation index is m = 0.8. We will now substitute m=0.8, Pc = 124 W to find P. Therefore, the power in one of the sidebands in SSB SC modulation is 79.36 W. the correct option is (C).

Hope you had got your answer

Mark me as brainliest


Related Questions

A resistor, inductor, and capacitor are in parallel in a circuit where the frequency of operation can vary. The R, L, and C values are such that at the frequency omega subscript 0, the magnitude of all the impedances are equal to each other. If the frequency of operation approaches zero, which element will dominate in determining the equivalent impedance of this parallel combination?

a. The inductor.
b. The capacitor.
c. The resistor.
d. Insufficient information provided.

Answers

Answer:

Option A is correct

Explanation:

As we know  

Inductive Susceptance = ½(pi)*f*L

Or  Inductive Susceptance is inversely  proportional to the frequency

Likewise conductive Susceptance = 2 (pi)*f*C

Conductive Susceptance is directly proportional to the frequency

When the frequency will reach the value zero, then the Inductive Susceptance will become infinite

Hence, inductor will dominate in determining the equivalent impedance of this parallel combination

Option A

Steam enters a turbine with a pressure of 30 bar, a temperature of 400 oC, and a velocity of 160 m/s. Saturated vapor at 100 oC exits with a velocity of 100 m/s. At steady state, the turbine develops work equal to 540 kJ per kg of steam flowing through the turbine. Heat transfer between the turbine and its surroundings occurs at an average outer surface temperature of 350 K. Determine the rate at which entropy is produced within the turbine per kg of steam flo

Answers

Answer:

The rate at which entropy is produced within the turbine is 22.762 kilojoules per kilogram-Kelvin.

Explanation:

By either the Principle of Mass Conservation and First and Second Laws of Thermodynamics, we model the steam turbine by the two equations described below:

Principle of Mass Conservation

[tex]\dot m_{in} - \dot m_{out} = 0[/tex] (1)

First Law of Thermodynamics

[tex]-\dot Q_{out} + \dot m \cdot \left[h_{in}-h_{out}+ \frac{1}{2}\cdot (v_{in}^{2}-v_{out}^{2}) - w_{out} \right] = 0[/tex] (2)

Second Law of Thermodynamics

[tex]-\frac{\dot Q_{out}}{T_{out}} + \dot m\cdot (s_{in}-s_{out}) + \dot S_{gen} = 0[/tex] (3)

By dividing each each expression by [tex]\dot m[/tex], we have the following system of equations:

[tex]-q_{out} + h_{in}-h_{out} + \frac{1}{2}\cdot (v_{in}^{2}-v_{out}^{2}) - w_{out} = 0[/tex] (2b)

[tex]-\frac{q_{out}}{T_{out}} + s_{in}-s_{out} + s_{gen} = 0[/tex] (3b)

Where:

[tex]\dot Q_{out}[/tex] - Heat transfer rate between the turbine and its surroundings, in kilowatts.

[tex]q_{out}[/tex] - Specific heat transfer between the turbine and its surroundings, in kilojoules per kilogram.

[tex]T_{out}[/tex] - Outer surface temperature of the turbine, in Kelvin.

[tex]\dot m[/tex] - Mass flow rate through the turbine, in kilograms per second.

[tex]h_{in}[/tex], [tex]h_{out}[/tex] - Specific enthalpy of water at inlet and outlet, in kilojoules per kilogram.

[tex]v_{in}[/tex], [tex]v_{out}[/tex] - Speed of water at inlet and outlet, in meters per second.

[tex]w_{out}[/tex] - Specific work of the turbine, in kilojoules per kilogram.

[tex]s_{in}[/tex], [tex]s_{out}[/tex] - Specific entropy of water at inlet and outlet, in kilojoules per kilogram-Kelvin.

[tex]s_{gen}[/tex] - Specific generated entropy, in kilojoules per kilogram-Kelvin.

By property charts for steam, we get the following information:

Inlet

[tex]T = 400\,^{\circ}C[/tex], [tex]p = 3000\,kPa[/tex], [tex]h = 3231.7\,\frac{kJ}{kg}[/tex], [tex]s = 6.9235\,\frac{kJ}{kg\cdot K}[/tex]

Outlet

[tex]T = 100\,^{\circ}C[/tex], [tex]p = 101.42\,kPa[/tex], [tex]h = 2675.6\,\frac{kJ}{kg}[/tex], [tex]s = 7.3542\,\frac{kJ}{kg\cdot K}[/tex]

If we know that [tex]h_{in} = 3231.7\,\frac{kJ}{kg}[/tex], [tex]h_{out} = 2675.6\,\frac{kJ}{kg}[/tex], [tex]v_{in} = 160\,\frac{m}{s}[/tex], [tex]v_{out} = 100\,\frac{m}{s}[/tex], [tex]w_{out} = 540\,\frac{kJ}{kg}[/tex], [tex]T_{out} = 350\,K[/tex], [tex]s_{in} = 6.9235\,\frac{kJ}{kg\cdot K}[/tex] and [tex]s_{out} = 7.3542\,\frac{kJ}{kg\cdot K}[/tex], then the rate at which entropy is produced withing the turbine is:

[tex]q_{out} = h_{in} - h_{out} + \frac{1}{2}\cdot (v_{in}^{2}-v_{out}^{2})-w_{out}[/tex]

[tex]q_{out} = 3231.7\,\frac{kJ}{kg} - 2675.6\,\frac{kJ}{kg} + \frac{1}{2}\cdot \left[\left(160\,\frac{m}{s} \right)^{2}-\left(100\,\frac{m}{s} \right)^{2}\right] - 540\,\frac{kJ}{kg}[/tex]

[tex]q_{out} = 7816.1\,\frac{kJ}{kg}[/tex]

[tex]s_{gen} = \frac{q_{out}}{T_{out}}+s_{out}-s_{in}[/tex]

[tex]s_{gen} = \frac{7816.1\,\frac{kJ}{kg} }{350\,K} + 7.3542\,\frac{kJ}{kg\cdot K} - 6.9235\,\frac{kJ}{kg\cdot K}[/tex]

[tex]s_{gen} = 22.762\,\frac{kJ}{kg\cdot K}[/tex]

The rate at which entropy is produced within the turbine is 22.762 kilojoules per kilogram-Kelvin.

How do guest room hotel smoke alarms work and differ then regular home versions?

Answers

Because the ones at hotels are more expensive and the one at your house is meant for like smoke from a pan I think.

Answer: As to the more sophisticated way of detecting "smoke" from an object a human may use in hotel rooms, this sensor called a Fresh Air Sensor does not just detect and, and but alerts the management about a smoking incident in a hotel room

where can I find solved problems of advanced soil structure interaction?​

Answers

The seismic response of nuclear power plant structures is often calculated using lumped parameter methods. A finite element model of the structure is coupled to the soil with a spring-dashpot system used to represent the interaction process. The parameters of the interaction model are based on analytic solutions to simple problems which are idealizations of the actual problems of interest. The objective of the work reported in this paper is to compare predicted responses using the standard lumped parameter models with experimental data. These comparisons are shown to be good for a fairly uniform soil system and for loadings that do not result in nonlinear interaction effects such as liftoff. 7 references, 7 figures.

Man tbh id k I’m sorry I’m. Not any help

identify the unit of the electrical parameters represented by L and C and prove that the resonant frequency (fr)=1÷2π√LC

Answers

Answer:

L = Henry

C = Farad

Explanation:

The electrical parameter represented as L is the inductance whose unit is Henry(H).

The electrical parameter represented as C is the inductance whose unit is Farad

Resonance frequency occurs when the applied period force is equal to the natural frequency of the system upon which the force acts :

To obtain :

At resonance, Inductive reactance = capacitive reactance

Equate the inductive and capacitive reactance

Inductive reactance(Xl) = 2πFL

Capacitive Reactance(Xc) = 1/2πFC

Inductive reactance(Xl) = Capacitive Reactance(Xc)

2πFL = 1/2πFC

Multiplying both sides by F

F * 2πFL = F * 1/2πFC

2πF²L = 1/2πC

Isolating F²

F² = 1/2πC2πL

F² = 1/4π²LC

Take the square root of both sides to make F the subject

F = √1 / √4π²LC

F = 1 /2π√LC

Hence, the proof.

Other Questions
A container has a volume of 2.79 L and a pressure of 5.97 atm. If the pressure changes to 1460 mm Hg, what is the containers new volume? You put $400 in a savings account. The account earns 7% simple interest per year.a. What is the interest earned after 10 years?b. What is the balance after 10 years? Please help Ill mark you as brainliest if correct please help me with this :) In the North, why did industry flourish instead of farming?In the North, why did industry flourish instead of farming?The people in the North were more interested in industry.The South did all the farming for the nation.The South did all the farming for the nation. Find the distance between point M and point G. (Richard Il speaking to himself in third person-)What must the king do now? must he submit?The king shall do it: must he be deposed?The king shall be contented: must he loseThe name of king? o God's name, let it go:I'll give my jewels for a set of beads,My gorgeous palace for a hermitage,My gay apparel for an almsman's gown,My figured goblets for a dish of wood,My sceptre for a palmer's walking staff,My subjects for a pair of carved saintsAnd my large kingdom for a little grave,A little little grave, an obscure grave;Or I'll be buried in the king's highway.Some way of common trade, where subjects' feetMay hourly trample on their sovereign's head:For on my heart they tread now whilst live:And buried once, why not upon my head?(Richard II 3.3.143-159)If this excerpt of a soliloquy from Shakespeare's play Richard were to be transformed into a novel, what characteristics might thatnovel exhibit?A) Richard would not be deposed in a novel form of this story; he would most likely keep the crown.B) Instead of being sad at losing the crown, the character of Richard would rejoice in his being deposed.C) Richard's emotions would probably be described by the narrator rather than stated directly to the reader in dialogue.D) A novelization of this moment would probably include much less parallel structure than is present in Shakespeare's words. What is the slope-intercept equation for this line(y= mx + b)? If you take latin PLEASE help ASAP children have a natural love of poetry? true or false help....... ........................... what is the error in the sentence below please explain and provide the correct sentence Explain how dangerous floods can be.PLEASE HELP! GIVING BRAINLIEST The owner of a snow-cone stand used gallon of syrup to make 16 cherry snow cones. She used the same amount of syrup in each snow cone. How much syrup in gallons was used in each cherry snow cone? A.1 gal .4 gal C.1/64 galD.64 gal Organisms are interdependent by all taking part in a food chain. Organisms rely on each other to sustain the ecological environment, something that humans have been lacking in. So, in general, organisms are interdependent because they have no choice. solve in simplest form15 3/5 - 3 2/7 Please help me with this homework Which statement best compares or contrasts how the characters in the passage and in the video act toward jane? A. Mrs. Fairfax expresses displeasure that Jane is at Thornfield, but Mr. Rochester expresses pleasure and relief that Jane is there.B. Both Mrs. Fairfax and Mr. Rochester treat Jane as an honored, but temporary, guest of Thornfield Hall.C. Both Mrs. Fairfax and Mr. Rochester try to assure Jane that Thornfield Hall is a safe place to live. Select the correct text in the passage. Which detail in the text best reflects the central idea of the passage? Dictatorships by Hal Marcovitz (excerpt from The Rise of Julius Caesar) Sulla was a brutal and relentless dictator. But one enemy who escaped his wrath was Gaius Julius Caesar. Caesar was born in 100 BCE to a wealthy family. As a nephew of Sullas opponent Marius, Caesar found himself on Sullas list of enemies. No doubt he too would have been killed, but his family intervened, and Sulla reluctantly spared his life. Next, Sulla ordered Caesar to divorce his wife. Caesar refused and fled the city. He joined a Roman army campaigning in Turkey and did not return until after Sullas death in 78 BCE. After returning to Rome, Caesar involved himself in the political intrigues of the republic and began his rise to power. His chief adversary was Sullas son-in-law, the powerful general Gnaeus Pompeius Magnus, known familiarly as Pompey. Instead of directly challenging Pompey, Caesar decided to bide his time. He struck an alliance with Pompey, who convinced the Senate to place Caesar in command of a Roman army. Under Caesar, the Romans conquered areas of modern France and Britain, as well as other parts of Europe. It was a campaign that would make Caesar an enormously heroic figure among the Roman people. As Caesar made his way back to Rome, the Senate ordered him to disband his army. Caesar refused. Instead, on January 10 in 49 BCE, Caesar led his army in an attack on Rome. As his army crossed the Rubicon River to reenter Italy, Caesar is said to have remarked, Let the dice fly high! Caesars ploy was not much of a gamble. His army easily swept aside his enemies, including his one-time ally, Pompey. Caesar marched into the city and declared himself dictator. After another four years of warfare in which he pursued his enemies across Europe and Africa, Caesar returned to Rome. He found the once-defiant senate now willing to bow down to his authoritarian power. The Roman senators elected Caesar dictator for 1. Choose the missing word. They felt the demands were 1. reazinable 2. reasanible 3. reasonable 4. reasonible 2. These sentences make a paragraph. Which does not belong? 1. Ireland is a coastal country with lots of rain. 2. They grow them very tall there. 3. The countryside is lush and green. 4. Cattle can be seen grazing in the fields.