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please 10.35 (a) and 10.36 (a)
10.35 Determine the wave polarization of each of the following...
Determine the wave polarization of each of the following waves: (a) E0 cos(wt + {3y)ax +...
Determine the wave polarization of each of the following waves: (a) E0 cos(wt + {3y)ax + E0 sin(wt+ {3y)azV/m (b) E0 cos(wt - {3y)ax- 3E0 sin(wt+ {3y)azV/m
Problen 7: Compare the polarization states of each of the following pairs of plane waves: (a)...
Problen 7: Compare the polarization states of each of the following pairs of plane waves: (a) wave 1: E1-32 cos(wt - kz) + y2 sin(wt - kz) wave 2: E2- 32 cos(ot + kz) + y2 sin(ot + kz) (b)wave 1: E12 cos(ot - kz) -y2sin(ot - kz) wave 2: E2- 32 cos(ot + kz) - y2sin(ot + kz)
3. The electric field of an elliptically polarized plane wave is given by E(z, t)- [-8 12 sin(wt-...
3. The electric field of an elliptically polarized plane wave is given by E(z, t)- [-8 12 sin(wt-kz-5800+ ỹ Determine the following (A) The polarization angles (y,x) 32 cos(wt-kz)] (V/m) (B) The direction of rotation
3. The electric field of an elliptically polarized plane wave is given by E(z, t)- [-8 12 sin(wt-kz-5800+ ỹ Determine the following (A) The polarization angles (y,x) 32 cos(wt-kz)] (V/m) (B) The direction of rotation
5. Calculate the polarization angles (y, χ) for the wave E(z,t)- f 3 cos(ωt-kz) + 93 cos(wt-k2+ 450) (V/m). Plot E(0, t) to show the polarization state. 5. Calculate the polarization angles...
5. Calculate the polarization angles (y, χ) for the wave E(z,t)- f 3 cos(ωt-kz) + 93 cos(wt-k2+ 450) (V/m). Plot E(0, t) to show the polarization state.
5. Calculate the polarization angles (y, χ) for the wave E(z,t)- f 3 cos(ωt-kz) + 93 cos(wt-k2+ 450) (V/m). Plot E(0, t) to show the polarization state.
10.37 Determine the wave polarization of each of the following waves:
10.37 Determine the wave polarization of each of the following waves:
verage power density Sav (Hint: It is a real vector.) 6. De termine the propagation direction and the polarization (linear or circular) of the plane circular polarization, determine if it is...
verage power density Sav (Hint: It is a real vector.) 6. De termine the propagation direction and the polarization (linear or circular) of the plane circular polarization, determine if it is LHCP or RHCP. waves bel E, = cos(at + k),Ep = sin(wt + ky), E,-0 a. ,Ez = sin(at-kx--),Er=0 C. A 0.5mm thick metal sheet is mit
verage power density Sav (Hint: It is a real vector.) 6. De termine the propagation direction and the polarization (linear or circular)...
7.12 The electric field of an elliptically polarized plane wave is given by [-k 10 sin(cot-kz-60°) E(z, t) y 30 cos(ot - kz)] (V/m). Determine the following: (a) The polarization angles (y, x). (...
7.12 The electric field of an elliptically polarized plane wave is given by [-k 10 sin(cot-kz-60°) E(z, t) y 30 cos(ot - kz)] (V/m). Determine the following: (a) The polarization angles (y, x). (b) The direction of rotation.
7.12 The electric field of an elliptically polarized plane wave is given by [-k 10 sin(cot-kz-60°) E(z, t) y 30 cos(ot - kz)] (V/m). Determine the following: (a) The polarization angles (y, x). (b) The direction of rotation.
5. Calculate the polarization angles (y, χ) for the wave E(z,t)- f 3 cos(ωt-kz) + 93...
5. Calculate the polarization angles (y, χ) for the wave E(z,t)- f 3 cos(ωt-kz) + 93 cos(wt-k2+ 450) (V/m). Plot E(0, t) to show the polarization state.
4. Plot the locus of E(0,t) for a plane wave with Ē (z,t) = î cos(wt+kz)...
4. Plot the locus of E(0,t) for a plane wave with Ē (z,t) = î cos(wt+kz) +ŷ 1.3 sin(wt + kz) (V/m) Determine the polarization state from your plot. Determine the direction of propagation of the wave.
Determine the type and sense of polarization for the following uniform plane waves (Do not forget...
Determine the type and sense of polarization for the following uniform plane waves (Do not forget to verify whether the sense of the polarization Left or Right hand) a) ?(?) = (??? −?(?/4) + ??? −?(?/4) )? −??? V/m. b) ?(?) = (2?? + ?5??)? −??? V/m.
Problen 7: Compare the polarization states of each of the following pairs of plane waves: (a) wave 1: E1-32 cos(wt - kz) + y2 sin(wt - kz) wave 2: E2- 32 cos(ot + kz) + y2 sin(ot + kz) (b)wave 1: E12 cos(ot - kz) -y2sin(ot - kz) wave 2: E2- 32 cos(ot + kz) - y2sin(ot + kz)
3. The electric field of an elliptically polarized plane wave is given by E(z, t)- [-8 12 sin(wt-kz-5800+ ỹ Determine the following (A) The polarization angles (y,x) 32 cos(wt-kz)] (V/m) (B) The direction of rotation
3. The electric field of an elliptically polarized plane wave is given by E(z, t)- [-8 12 sin(wt-kz-5800+ ỹ Determine the following (A) The polarization angles (y,x) 32 cos(wt-kz)] (V/m) (B) The direction of rotation
5. Calculate the polarization angles (y, χ) for the wave E(z,t)- f 3 cos(ωt-kz) + 93 cos(wt-k2+ 450) (V/m). Plot E(0, t) to show the polarization state.
5. Calculate the polarization angles (y, χ) for the wave E(z,t)- f 3 cos(ωt-kz) + 93 cos(wt-k2+ 450) (V/m). Plot E(0, t) to show the polarization state.
10.37 Determine the wave polarization of each of the following waves:
verage power density Sav (Hint: It is a real vector.) 6. De termine the propagation direction and the polarization (linear or circular) of the plane circular polarization, determine if it is LHCP or RHCP. waves bel E, = cos(at + k),Ep = sin(wt + ky), E,-0 a. ,Ez = sin(at-kx--),Er=0 C. A 0.5mm thick metal sheet is mit
verage power density Sav (Hint: It is a real vector.) 6. De termine the propagation direction and the polarization (linear or circular)...
7.12 The electric field of an elliptically polarized plane wave is given by [-k 10 sin(cot-kz-60°) E(z, t) y 30 cos(ot - kz)] (V/m). Determine the following: (a) The polarization angles (y, x). (b) The direction of rotation.
7.12 The electric field of an elliptically polarized plane wave is given by [-k 10 sin(cot-kz-60°) E(z, t) y 30 cos(ot - kz)] (V/m). Determine the following: (a) The polarization angles (y, x). (b) The direction of rotation.
5. Calculate the polarization angles (y, χ) for the wave E(z,t)- f 3 cos(ωt-kz) + 93 cos(wt-k2+ 450) (V/m). Plot E(0, t) to show the polarization state.
4. Plot the locus of E(0,t) for a plane wave with Ē (z,t) = î cos(wt+kz) +ŷ 1.3 sin(wt + kz) (V/m) Determine the polarization state from your plot. Determine the direction of propagation of the wave.
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