A single wavelength of a transverse electromagnetic wave is presented. The electric field and the magnetic field are clearly labeled, and each is aligned with one of the coordinate axes. The direction of the wave propagation may be determined by using the right-hand rule. Using the flattened right hand, the right-hand rule may be applied to a cross-product as follows: Part (a) c = à×b where direction of a (1st input) direction of b (2nd input) = fingers palm faces direction of c (output) = thumb B 22 E The direction of the wave velocity is the same as the direction of the cross product of the electric field with the magnetic field, Ĕ × B. Drag a hand image which correctly represents the application of the right-hand rule to the direction of Ex B, consistent with the explanation of the right-hand rule in the problem statement, to the box near the coordinate axes. First hold your right hand next to the image of the wave with the parts of your hand aligning with the coordinate axes, and then determine which of the images is a match. Double check your response after dragging the hand image to the target box. E Grade Summary Deductions 0% Potential 100% Late Work % 90% Late Potential 90% Submissions Attempt(s) Remaining: 3 4% Deduction per Attempt detailed view A single wavelength of a transverse electromagnetic wave is presented. The electric field and the magnetic field are clearly labeled, and each is aligned with one of the coordinate axes. The direction of the wave propagation may be determined by using the right-hand rule. Using the flattened right hand, the right-hand rule may be applied to a cross-product as follows: c = axb where direction of a (1st input) direction of b (2nd input) = fingers palm faces direction of c (output) = thumb E Part (a) The direction of the wave velocity is the same as the direction of the cross product of the electric field with the magnetic field, Ĕ × B. Drag a hand image which correctly represents the application of the right-hand rule to the direction of Ẽ X B, consistent with the explanation of the right-hand rule in the problem statement, to the box near the coordinate axes. First hold your right hand next to the image of the wave with the parts of your hand aligning with the coordinate axes, and then determine which of the images is a match. Double check your response after dragging the hand image to the target box. Part (b) Which unit vector best represents the direction of the wave velocity? "T +ŷ קי -k ↓.> I., +k Grade Summary Deductions 0% Potential 100% Late Work % 90% Late Potential 90% Submissions Attempt(s) Remaining: 20% Deduction per

Transcribed Image Text:

A single wavelength of a transverse electromagnetic wave is presented. The electric field and the magnetic field are clearly labeled, and each is aligned with one of the coordinate axes. The direction of the wave propagation may be determined by using the right-hand rule. Using the flattened right hand, the right-hand rule may be applied to a cross-product as follows: Part (a) c = à×b where direction of a (1st input) direction of b (2nd input) = fingers palm faces direction of c (output) = thumb B 22 E The direction of the wave velocity is the same as the direction of the cross product of the electric field with the magnetic field, Ĕ × B. Drag a hand image which correctly represents the application of the right-hand rule to the direction of Ex B, consistent with the explanation of the right-hand rule in the problem statement, to the box near the coordinate axes. First hold your right hand next to the image of the wave with the parts of your hand aligning with the coordinate axes, and then determine which of the images is a match. Double check your response after dragging the hand image to the target box. E Grade Summary Deductions 0% Potential 100% Late Work % 90% Late Potential 90% Submissions Attempt(s) Remaining: 3 4% Deduction per Attempt detailed view

Transcribed Image Text:

A single wavelength of a transverse electromagnetic wave is presented. The electric field and the magnetic field are clearly labeled, and each is aligned with one of the coordinate axes. The direction of the wave propagation may be determined by using the right-hand rule. Using the flattened right hand, the right-hand rule may be applied to a cross-product as follows: c = axb where direction of a (1st input) direction of b (2nd input) = fingers palm faces direction of c (output) = thumb E Part (a) The direction of the wave velocity is the same as the direction of the cross product of the electric field with the magnetic field, Ĕ × B. Drag a hand image which correctly represents the application of the right-hand rule to the direction of Ẽ X B, consistent with the explanation of the right-hand rule in the problem statement, to the box near the coordinate axes. First hold your right hand next to the image of the wave with the parts of your hand aligning with the coordinate axes, and then determine which of the images is a match. Double check your response after dragging the hand image to the target box. Part (b) Which unit vector best represents the direction of the wave velocity? "T +ŷ קי -k ↓.> I., +k Grade Summary Deductions 0% Potential 100% Late Work % 90% Late Potential 90% Submissions Attempt(s) Remaining: 20% Deduction per