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Need help with 8 and 9 only
0.250 mm Interactive Exercises 33.02: Structure of a Plane...
Any help with any of the following would be great 0.250 mm Click and drag figure...
Any help with any of the following would be great
0.250 mm Click and drag figure to rotate Interactive Exercises 33.02: Structure of a Plane Electromagnetic Wave Function, 2 A planar electromagnetic wave travels through free space (vacuum) in the direction shown in the simulation (linked below). Run the animation now. The animation shows electric field vectors É at locations along the x axis. Each brown arrow represents the electric field at the point on the x axis where its...
Need help with question 6 and 7 t/T ZOOC S (W/m2) Lt/T 2.0 0.5 1.0 1.5...
Need help with question 6 and 7
t/T ZOOC S (W/m2) Lt/T 2.0 0.5 1.0 1.5 Target Area Interactive Exercises 33.03: Energy Transport and Electromagnetic Waves Consider sunlight that has been filtered so that only an electromagnetic wave of wavelength 1 = 500 nm is present. Because Earth is far from Sun, we will model this sunlight as a plane electromagnetic wave. The simulation (linked below) shows the traveling electric and magnetic waves. Run the animation now. A flat (planar)...
Chapter 33, Problem 011 A plane electromagnetic wave traveling in the positive direction of an x...
Chapter 33, Problem 011 A plane electromagnetic wave traveling in the positive direction of an x axis in vacuum has components Ex = Ey = 0 and Ez = (4.4 V/m) cos[(11 x 1015 s-1)(t - x/c)]:(a) What is the amplitude of the magnetic field component? (b) Parallel to which axis does the magnetic field oscillate? (C) When the electric field component is in the positive direction of the z axis at a certain point P, what is the direction...
Interactive Exercises 22.14: Motion of a Charged Particle in an External Electric Field I A particle...
Interactive Exercises 22.14: Motion of a Charged Particle in an External Electric Field I A particle has mass 10.0 g and charge of magnitude l 1.00 mC. You do not know the sign of the particle's cherge. The particle moves in the horizcntal xy plene. (You carn ignore the effects of the force due to gravity on the partice.) The partide is projected from the rigin with initial velocity V witn components ex d oy that you can adjust-see the...
please help and show all work. Preparation for final exam! Problem 7. A Grave Wave A plane electromagnetic wave is sinusoidal with a frequency of 100 MHz. The wave's Poynting vector has the pr...
please help and show all work. Preparation for final
exam!
Problem 7. A Grave Wave A plane electromagnetic wave is sinusoidal with a frequency of 100 MHz. The wave's Poynting vector has the property: S= J. The electric field has a maximum value。 f 2.00 mV/m. (a) Write possible expressions for the electric and magnetic fields as functions of space and time using numerical values. (b) Compute the power of this wave on a 0.5m2 surface. Solution
Problem 7. A...
Problem 7.036 A long, cylindrical, electrical heating element of diameter D 10 mm, thermal conductivity k240...
Problem 7.036 A long, cylindrical, electrical heating element of diameter D 10 mm, thermal conductivity k240 W/m- K, density p 2700 kg/m, and specific heat c900 J/kg K is installed in a duct for which air moves in cross flow over the heater at a temperature and velocity of 27°C and 20 m/s, respectively (a) Neglecting radiation, estimate the steady-state surface temperature when, per unit length of the heater, electrical energy is being dissipated at a rate of 1000 W/m....
Chapter 30, Problem 008 A uniform magnetic field is perpendicular to the plane of a Circular...
Chapter 30, Problem 008 A uniform magnetic field is perpendicular to the plane of a Circular loop of diameter 15 cm formed from wire of diameter 34 mm and resistivity of 1.71 x 10 of the magnetic field change to induce a 13 A current in the loop? m. At what rate must the magnitude Number the tolerance / Click If you would like to Show Work for this question: Open Show Work
The figure below shows a plane electromagnetic sinusoidal wave propagating in the x direction. Suppose the...
The figure below shows a plane electromagnetic sinusoidal wave propagating in the x direction. Suppose the wavelength is 48.0 m and the e field vibrates in the xy plane with an amplitude of 18.0 V/m. (a) Calculate the frequency of the wave. 6.25 MHz (b) Calculate the magnetic field B when the electric field has its maximum value in the negative y direction, magnitude. 0.13 What is the relationship between the amplitudes of the magnetic and electric fields in a...
I need answers for part 4 and 5. Problem 8.003 Water at 27°C is flowing with...
I need answers for part 4 and 5.
Problem 8.003 Water at 27°C is flowing with a mean velocity of 0.13 m/s through a 709-m-long cast iron pipe of 0.15-m inside diameter. Physical Properties Mathematical Functions Part 1 Your answer is correct. What is the value for the viscosity, in N.s/m2? u = 10.0008509 Ns/m² the tolerance is +/-2% Click if you would like to Show Work for this question: Open Show Work By accessing this Question Assistance, you will...
Interactive Exercises 22.13: Electric Field Due to Two Charged Sheets: Sample Problem (Two Parallel Sheets of...
Interactive Exercises 22.13: Electric Field Due to Two Charged Sheets: Sample Problem (Two Parallel Sheets of Charge) In an industrial process to large, thin, lat sheets of plastic are given uniform charges over their surfaces. The sheets are so large that, for locations not too close to the edges, we can approximate them as being in'inite in extent. Figure 22.13.1 shows a side view of the e o sheets, hich are pe al el. The +x r ns aleng one...
Any help with any of the following would be great
0.250 mm Click and drag figure to rotate Interactive Exercises 33.02: Structure of a Plane Electromagnetic Wave Function, 2 A planar electromagnetic wave travels through free space (vacuum) in the direction shown in the simulation (linked below). Run the animation now. The animation shows electric field vectors É at locations along the x axis. Each brown arrow represents the electric field at the point on the x axis where its...
Need help with question 6 and 7
t/T ZOOC S (W/m2) Lt/T 2.0 0.5 1.0 1.5 Target Area Interactive Exercises 33.03: Energy Transport and Electromagnetic Waves Consider sunlight that has been filtered so that only an electromagnetic wave of wavelength 1 = 500 nm is present. Because Earth is far from Sun, we will model this sunlight as a plane electromagnetic wave. The simulation (linked below) shows the traveling electric and magnetic waves. Run the animation now. A flat (planar)...
Chapter 33, Problem 011 A plane electromagnetic wave traveling in the positive direction of an x axis in vacuum has components Ex = Ey = 0 and Ez = (4.4 V/m) cos[(11 x 1015 s-1)(t - x/c)]:(a) What is the amplitude of the magnetic field component? (b) Parallel to which axis does the magnetic field oscillate? (C) When the electric field component is in the positive direction of the z axis at a certain point P, what is the direction...
Interactive Exercises 22.14: Motion of a Charged Particle in an External Electric Field I A particle has mass 10.0 g and charge of magnitude l 1.00 mC. You do not know the sign of the particle's cherge. The particle moves in the horizcntal xy plene. (You carn ignore the effects of the force due to gravity on the partice.) The partide is projected from the rigin with initial velocity V witn components ex d oy that you can adjust-see the...
please help and show all work. Preparation for final
exam!
Problem 7. A Grave Wave A plane electromagnetic wave is sinusoidal with a frequency of 100 MHz. The wave's Poynting vector has the property: S= J. The electric field has a maximum value。 f 2.00 mV/m. (a) Write possible expressions for the electric and magnetic fields as functions of space and time using numerical values. (b) Compute the power of this wave on a 0.5m2 surface. Solution
Problem 7. A...
Problem 7.036 A long, cylindrical, electrical heating element of diameter D 10 mm, thermal conductivity k240 W/m- K, density p 2700 kg/m, and specific heat c900 J/kg K is installed in a duct for which air moves in cross flow over the heater at a temperature and velocity of 27°C and 20 m/s, respectively (a) Neglecting radiation, estimate the steady-state surface temperature when, per unit length of the heater, electrical energy is being dissipated at a rate of 1000 W/m....
Chapter 30, Problem 008 A uniform magnetic field is perpendicular to the plane of a Circular loop of diameter 15 cm formed from wire of diameter 34 mm and resistivity of 1.71 x 10 of the magnetic field change to induce a 13 A current in the loop? m. At what rate must the magnitude Number the tolerance / Click If you would like to Show Work for this question: Open Show Work
The figure below shows a plane electromagnetic sinusoidal wave propagating in the x direction. Suppose the wavelength is 48.0 m and the e field vibrates in the xy plane with an amplitude of 18.0 V/m. (a) Calculate the frequency of the wave. 6.25 MHz (b) Calculate the magnetic field B when the electric field has its maximum value in the negative y direction, magnitude. 0.13 What is the relationship between the amplitudes of the magnetic and electric fields in a...
I need answers for part 4 and 5.
Problem 8.003 Water at 27°C is flowing with a mean velocity of 0.13 m/s through a 709-m-long cast iron pipe of 0.15-m inside diameter. Physical Properties Mathematical Functions Part 1 Your answer is correct. What is the value for the viscosity, in N.s/m2? u = 10.0008509 Ns/m² the tolerance is +/-2% Click if you would like to Show Work for this question: Open Show Work By accessing this Question Assistance, you will...
Interactive Exercises 22.13: Electric Field Due to Two Charged Sheets: Sample Problem (Two Parallel Sheets of Charge) In an industrial process to large, thin, lat sheets of plastic are given uniform charges over their surfaces. The sheets are so large that, for locations not too close to the edges, we can approximate them as being in'inite in extent. Figure 22.13.1 shows a side view of the e o sheets, hich are pe al el. The +x r ns aleng one...
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Amplitude=3;
fs=8000;
n=0:399;
t=0:1/fs: n*1/fs-1/fs;
signal=3+3*cos(2*pi*1100*t)+3*cos(2*pi*2200*t)+3*cos(2*pi*3300*t);
fftSignal= fft(signal);
fftSignal=f ftshift (fftSignal);
f=fs/2*linspace(-1,1,fs);
plot(f,abs(fftsignal);
xlabel('Frequency(Hz)’)
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