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![Delay = length Velocity factor (3x108 m/sec) 4.877 3x108m x 0.8 = sec § 2.02x108 sec Delay = 20 n sec]](http://img.homeworklib.com/questions/282c44e0-8a9a-11eb-9917-bf366cfa7901.png?x-oss-process=image/resize,w_560)
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28the burde 4. * 020 O points) (1) Determine the leth e -wavelength cable velocity factor...
1 Determine the velocity of wave propagation in a cable of mass o = by a...
1 Determine the velocity of wave propagation in a cable of mass o = by a tension P = 4000 N 5 kg/m when stretched
Question 7 1 pts A length of coaxial cable has a shield resistance of Rs =...
Question 7 1 pts A length of coaxial cable has a shield resistance of Rs = 2 ohms and a shield inductance of Ls = 1 microH. Over what frequency range will this cable be useful as a shielded conductor for suppressing magnetic field noise? Of< 320 kHz Of<2 MHz Of> 320 kHz 320 kHz<f<2 MHz Question 8 1 pts In the circuit shown, L1 = 20 uH, Ls = M= 15 uH, and Rs = 1 12. The load...
4. [2/3 Points) DETAILS PREVIOUS ANSWERS SERCP11 13.4.P.020. MY NOTES ASK YOUR TEACHER PRACTICE ANOTHER A...
4. [2/3 Points) DETAILS PREVIOUS ANSWERS SERCP11 13.4.P.020. MY NOTES ASK YOUR TEACHER PRACTICE ANOTHER A student stretches a spring, attaches a 1.90 kg mass to it, and releases the mass from rest on a frictionless surface. The resulting oscillation has a period of 0.650 s and an amplitude of 30.0 cm. Determine the oscillation frequency, the spring constant, and the speed of the mass when it is halfway to the equilibrium position. HINT (a) the oscillation frequency (in Hz)...
1/2 points Previous Answers KatzPSEf1 34.P.020. n electromagnetic wave is given in SI units by E(x,...
1/2 points Previous Answers KatzPSEf1 34.P.020. n electromagnetic wave is given in SI units by E(x, t) - 3.65 sin(0.68x - wt) V/m. (Use the exact values you enter to make later calculations.) (a) What is the angular frequency? 204e+ 08 r ad/s (b) What is the magnetic field at x = 2.0 m and t - 3.0 S? Enter a number. differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. T...
Problem 1 (a) The height of an (m). Determine the phase velocity and the wavelength, and...
Problem 1 (a) The height of an (m). Determine the phase velocity and the wavelength, and then sketch y(x, t) at t over the range from x 0 to 3X. cean wave is described by the function y(x, t5(0.25t 0.25r) 1 s (b) The phasor of the electric field of an electromagnetic wave traveling in a dissipative medium is: E 0.5 j0.5)e-0.5*e-j0.53. Determine the time-domain expression of E and sketch a corresponding plot at = 0 and at = 2...
5 Points Problem 5: A Uniform Plane Wave of frequency f is propagating in a certain...
5 Points Problem 5: A Uniform Plane Wave of frequency f is propagating in a certain lossless medium of Impedance n with a Phase Velocity Vp. A. Find the Wavelength, 2. 5 Points B. Find the Propagation Constant, ß. 5 Points C. Find the Relative Permittivity, er. 5 Points D. Find the relative permeability, Hr. 5 Points | Er = 2.10 Problem 3A f = 13.4 MHz Problem 3B 1 = 3.9 m Problem 30 f = 10.0 MHz Problem...
Please answer #4 4 2 O.021 3m L Mass of Me strip (e)O.O15 5pmL O.020 3mL...
Please answer #4
4 2 O.021 3m L Mass of Me strip (e)O.O15 5pmL O.020 3mL almL 19ML 16ML 3ML 23mL 2 OmL 3mL 21eL 21mL Initial vol. of syringe (mL) 19mL Final vol. of syringe (mL) 18mL 14ML Volume of H: gas (mL) FiNGl Volume Barometric pressure, torr (given): 25.SC Ambient temperature, "C (given): as aoc Vapor pressure of water, torr (Table 6.1): Determine R from your data. 1. The amount (in moles) of H2 gas formed is equal...
4 O-1 points 82.010. The following table shows the frequency of outcomes when two distinguishable coins...
4 O-1 points 82.010. The following table shows the frequency of outcomes when two distinguishable coins were tossed 4,800 times and the uppermost faces were observed. HINT [See Example 2.] Outcome H HT TH TIT Frequency 1,300 1,150 1,400 930 What is the relative frequency that the first coin lands with heads up? (Round your ansver to four decimal places.) Need Help? e
2. The Points A through E on the Figurel represent various distances from the center of...
2. The Points A through E on the Figurel represent various distances from the center of the current-carrying wire. Which point experiences the strongest magnetic field?) (A) Point A (B) Point C (C) Point D (D) Point E 3.A wave has a frequency of 100 Hz and a wavelength of 1 m. What is the velocity of the wave? (A) 0.01 m/s (B)1 m/s (C)10 m/s (D) 100 m/s Figurel 4. A wave of light 638 nm) enters a block...
4. (8 Points) An electromagnetic wave, with a frequency of f-100 MHz, is traveling through vacuum...
4. (8 Points) An electromagnetic wave, with a frequency of f-100 MHz, is traveling through vacuum in a direction we can call the x-axis. At t = 0, the electric field due to this wave at x = 0 has a magnitude of 300 V/m. a. Determine the wavelength of this wave. b. If this wave entered your eye would you see anything; explain why or why not. What region of the electromagnetic spectrum does this wave occupy? e. Determine...
1 Determine the velocity of wave propagation in a cable of mass o = by a tension P = 4000 N 5 kg/m when stretched
Question 7 1 pts A length of coaxial cable has a shield resistance of Rs = 2 ohms and a shield inductance of Ls = 1 microH. Over what frequency range will this cable be useful as a shielded conductor for suppressing magnetic field noise? Of< 320 kHz Of<2 MHz Of> 320 kHz 320 kHz<f<2 MHz Question 8 1 pts In the circuit shown, L1 = 20 uH, Ls = M= 15 uH, and Rs = 1 12. The load...
4. [2/3 Points) DETAILS PREVIOUS ANSWERS SERCP11 13.4.P.020. MY NOTES ASK YOUR TEACHER PRACTICE ANOTHER A student stretches a spring, attaches a 1.90 kg mass to it, and releases the mass from rest on a frictionless surface. The resulting oscillation has a period of 0.650 s and an amplitude of 30.0 cm. Determine the oscillation frequency, the spring constant, and the speed of the mass when it is halfway to the equilibrium position. HINT (a) the oscillation frequency (in Hz)...
1/2 points Previous Answers KatzPSEf1 34.P.020. n electromagnetic wave is given in SI units by E(x, t) - 3.65 sin(0.68x - wt) V/m. (Use the exact values you enter to make later calculations.) (a) What is the angular frequency? 204e+ 08 r ad/s (b) What is the magnetic field at x = 2.0 m and t - 3.0 S? Enter a number. differs significantly from the correct answer. Rework your solution from the beginning and check each step carefully. T...
Problem 1 (a) The height of an (m). Determine the phase velocity and the wavelength, and then sketch y(x, t) at t over the range from x 0 to 3X. cean wave is described by the function y(x, t5(0.25t 0.25r) 1 s (b) The phasor of the electric field of an electromagnetic wave traveling in a dissipative medium is: E 0.5 j0.5)e-0.5*e-j0.53. Determine the time-domain expression of E and sketch a corresponding plot at = 0 and at = 2...
5 Points Problem 5: A Uniform Plane Wave of frequency f is propagating in a certain lossless medium of Impedance n with a Phase Velocity Vp. A. Find the Wavelength, 2. 5 Points B. Find the Propagation Constant, ß. 5 Points C. Find the Relative Permittivity, er. 5 Points D. Find the relative permeability, Hr. 5 Points | Er = 2.10 Problem 3A f = 13.4 MHz Problem 3B 1 = 3.9 m Problem 30 f = 10.0 MHz Problem...
Please answer #4
4 2 O.021 3m L Mass of Me strip (e)O.O15 5pmL O.020 3mL almL 19ML 16ML 3ML 23mL 2 OmL 3mL 21eL 21mL Initial vol. of syringe (mL) 19mL Final vol. of syringe (mL) 18mL 14ML Volume of H: gas (mL) FiNGl Volume Barometric pressure, torr (given): 25.SC Ambient temperature, "C (given): as aoc Vapor pressure of water, torr (Table 6.1): Determine R from your data. 1. The amount (in moles) of H2 gas formed is equal...
4 O-1 points 82.010. The following table shows the frequency of outcomes when two distinguishable coins were tossed 4,800 times and the uppermost faces were observed. HINT [See Example 2.] Outcome H HT TH TIT Frequency 1,300 1,150 1,400 930 What is the relative frequency that the first coin lands with heads up? (Round your ansver to four decimal places.) Need Help? e
2. The Points A through E on the Figurel represent various distances from the center of the current-carrying wire. Which point experiences the strongest magnetic field?) (A) Point A (B) Point C (C) Point D (D) Point E 3.A wave has a frequency of 100 Hz and a wavelength of 1 m. What is the velocity of the wave? (A) 0.01 m/s (B)1 m/s (C)10 m/s (D) 100 m/s Figurel 4. A wave of light 638 nm) enters a block...
4. (8 Points) An electromagnetic wave, with a frequency of f-100 MHz, is traveling through vacuum in a direction we can call the x-axis. At t = 0, the electric field due to this wave at x = 0 has a magnitude of 300 V/m. a. Determine the wavelength of this wave. b. If this wave entered your eye would you see anything; explain why or why not. What region of the electromagnetic spectrum does this wave occupy? e. Determine...
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