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At one instance the electric field and the magnetic field at the origin are found to be E (1,0,0) and B (0,1,1). (a) What is the propagation direction of the wave? (b) Answer part a again if the...
The direction of the magnetic field in an electromagnetic wave is: A. random, and not related...
The direction of the magnetic field in an electromagnetic wave is: A. random, and not related to the direction of the electric field or the direction of propagation. B. anti-parallel to the electric field. C. parallel to the direction of propagation of the wave. D. parallel to the electric field. E. perpendicular to the electric field.
Question 2: For an electromagnetic plane wave, the electric field is given by: Ē= E, cos(kz...
Question 2: For an electromagnetic plane wave, the electric field is given by: Ē= E, cos(kz +wt) ĉ +0 ġ+02 a) Determine the direction of propagation of the electromagnetic wave. b) Find the magnitude and direction of the magnetic field for the given electromagnetic wave B. c) Calculate the Poynting vector associated with this electromagnetic wave. What direction does this vector point? Does this makes sense? d) If the amplitude of the magnetic field was measured to be 2.5 *...
Question 2: For an electromagnetic plane wave, the electric field is given by: Ē = E,...
Question 2: For an electromagnetic plane wave, the electric field is given by:$$ \vec{E}=E_{0} \cos (k z+\omega t) \hat{x}+0 \hat{y}+0 \hat{z} $$a) Determine the direction of propagation of the electromagnetic wave.b) Find the magnitude and direction of the magnetic field for the given electromagnetic wave \(\vec{B}\).c) Calculate the Poynting vector associated with this electromagnetic wave. What direction does this vector point? Does this makes sense?d) If the amplitude of the magnetic field was measured to be \(2.5 * 10^{-7} \mathrm{~T}\),...
if the magnetic field of an electromagnetic wave is in the +x-direction and the electric field...
if the magnetic field of an electromagnetic wave is in the +x-direction and the electric field of the wave is in the +y direction, the wave is traveling in what direction? Explain your answer.
Determine the direction and speed of propagation of the magnetic field of a plane-polarized electromagnetic wave...
Determine the direction and speed of propagation of the
magnetic
field of a plane-polarized electromagnetic wave given by
in SI units. What is the frequency of the wave?
A. 500Mhz
B. 250 kHz
C. 1.25 MHz
D. 10 mHz
E. 300 MHz
(ofxt 05 ) , ੧੦੦,-01 x cl=ਬ
V/m Ē = (3x +59)e-j2x-3jy a. c. Calculate the magnetic field accociated with this electric field...
V/m Ē = (3x +59)e-j2x-3jy a. c. Calculate the magnetic field accociated with this electric field b. Calculate the propagation constant for this wave Calculate the speed of this wave at the F=1GHz at the direction of propagation d. Find the direction of propagation Calculate the speed of the wave in X direction f. Calculate the speed of the wave in Y direction 8. What is the type of the polarization for this wave. e.
An electromagnetic wave is propagating in the -x direction. At one instant, the electric field of...
An electromagnetic wave is propagating in the -x direction. At one instant, the electric field of this EM wave is pointing in the -z direction with a magnitude of 4.5e+005 N/C. At this same instant, 7. ac what are the magnitude and direction of the magnetic field of this EM wave? A 4.50e+005 T, in the -z direction B 6.67e+002 T, in the ty direction C 6.67e+002 T, in the -y direction 1.50e-003 T, in the -y direction 1.50e-003 T,...
Part 1: A plane electromagnetic wave propagates in vacuum. Its electric field is given by the...
Part 1: A plane electromagnetic wave propagates in vacuum. Its electric field is given by the mathematical expression Ex = 235 cos 0.63m?1 z ? 1.9 × 108 s ?1 t V/ (for refrence). Actual Question : According to the above expression, at a particular instance in time, the electric field is along the +x direction. Indicate the magnitude and direction of the wave’s magnetic field at the same instance. (Hint: The right-hand rule applies.) A. 78 × 10?8T, z...
a) The peak magnitude of the magnetic field in a particular electromagnetic wave in a vacuum...
a) The peak magnitude of the magnetic field in a particular electromagnetic wave in a vacuum is 1.0E-12 T. What is the peak electric field magnitude for the same wave? b) If at a given time t0 the Magnetic field vector for the wave pointed in the +z direction, what direction would the electric field point at that time? c) At time t0, which direction is the EM wave traveling? d) What is the speed of the wave? e) What...
Part A: An electromagnetic wave is propagating in the positive x direction. At a given moment...
Part A:
An electromagnetic wave is propagating in the positive
x direction. At a given moment in time, the magnetic field
at the origin points in the positive y direction. In what
direction does the electric field at the origin point at that same
moment?
Positive x
Negative x
Positive y
Negative y
Positive z
Negative z
Part B:
The figure shows the electromagnetic field as a function of
position for two electromagnetic waves traveling in a vacuum at a...
Question 2: For an electromagnetic plane wave, the electric field is given by: Ē= E, cos(kz +wt) ĉ +0 ġ+02 a) Determine the direction of propagation of the electromagnetic wave. b) Find the magnitude and direction of the magnetic field for the given electromagnetic wave B. c) Calculate the Poynting vector associated with this electromagnetic wave. What direction does this vector point? Does this makes sense? d) If the amplitude of the magnetic field was measured to be 2.5 *...
Question 2: For an electromagnetic plane wave, the electric field is given by:$$ \vec{E}=E_{0} \cos (k z+\omega t) \hat{x}+0 \hat{y}+0 \hat{z} $$a) Determine the direction of propagation of the electromagnetic wave.b) Find the magnitude and direction of the magnetic field for the given electromagnetic wave \(\vec{B}\).c) Calculate the Poynting vector associated with this electromagnetic wave. What direction does this vector point? Does this makes sense?d) If the amplitude of the magnetic field was measured to be \(2.5 * 10^{-7} \mathrm{~T}\),...
Determine the direction and speed of propagation of the
magnetic
field of a plane-polarized electromagnetic wave given by
in SI units. What is the frequency of the wave?
A. 500Mhz
B. 250 kHz
C. 1.25 MHz
D. 10 mHz
E. 300 MHz
(ofxt 05 ) , ੧੦੦,-01 x cl=ਬ
V/m Ē = (3x +59)e-j2x-3jy a. c. Calculate the magnetic field accociated with this electric field b. Calculate the propagation constant for this wave Calculate the speed of this wave at the F=1GHz at the direction of propagation d. Find the direction of propagation Calculate the speed of the wave in X direction f. Calculate the speed of the wave in Y direction 8. What is the type of the polarization for this wave. e.
An electromagnetic wave is propagating in the -x direction. At one instant, the electric field of this EM wave is pointing in the -z direction with a magnitude of 4.5e+005 N/C. At this same instant, 7. ac what are the magnitude and direction of the magnetic field of this EM wave? A 4.50e+005 T, in the -z direction B 6.67e+002 T, in the ty direction C 6.67e+002 T, in the -y direction 1.50e-003 T, in the -y direction 1.50e-003 T,...
Part A:
An electromagnetic wave is propagating in the positive
x direction. At a given moment in time, the magnetic field
at the origin points in the positive y direction. In what
direction does the electric field at the origin point at that same
moment?
Positive x
Negative x
Positive y
Negative y
Positive z
Negative z
Part B:
The figure shows the electromagnetic field as a function of
position for two electromagnetic waves traveling in a vacuum at a...
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