155526
Which of the following is/are the property/ properties of a monochromatic electromagnetic wave propagating in the free space?
1 1 and 3
2 only 2
3 2 and 3
4 only 4
Explanation:
B The energy contribution of both electric \& magnetic field are equal property of a monochromatic, plane electromagnetic wave in free space.
AP EAMCET (21.04.2019) Shift-I
Electromagnetic Wave
155540
Electromagnetic wave consists of periodically oscillating electric and magnetic vectors
1 in mutually perpendicular planes but vibrating with a phase difference of $\pi$
2 in mutually perpendicular planes but vibrating with a phase difference of $\frac{\pi}{2}$
3 in randomly oriented planes but vibrating in phase
4 in mutually perpendicular planes but vibrating in phase
Explanation:
D The electric vector and magnetic vector propagate in planes perpendicular to each other. Phase difference refers to the time difference and since there exist no time difference between the peak of each vector, their phase difference is zero.
AIIMS-2017
Electromagnetic Wave
155542
Electromagnetic waves travel only through
1 material medium
2 vacuum
3 oscillating electric and magnetic fields
4 oscillating electric and magnetic fields whose directions are perpendicular to each other
Explanation:
D Electromagnetic wave travels through oscillating electric \& magnetic field whose directions are perpendicular to each other.
Manipal UGET-2012
Electromagnetic Wave
155544
The electric and the magnetic field associated with an EM wave, propagating along the $+z-$ axis, can be represented by
A EM always propagates in a direction perpendicular to both electric and magnetic field. So, electric and magnetic field should be along $+\mathrm{x}$ and $+\mathrm{y}$ directions respectively.
155526
Which of the following is/are the property/ properties of a monochromatic electromagnetic wave propagating in the free space?
1 1 and 3
2 only 2
3 2 and 3
4 only 4
Explanation:
B The energy contribution of both electric \& magnetic field are equal property of a monochromatic, plane electromagnetic wave in free space.
AP EAMCET (21.04.2019) Shift-I
Electromagnetic Wave
155540
Electromagnetic wave consists of periodically oscillating electric and magnetic vectors
1 in mutually perpendicular planes but vibrating with a phase difference of $\pi$
2 in mutually perpendicular planes but vibrating with a phase difference of $\frac{\pi}{2}$
3 in randomly oriented planes but vibrating in phase
4 in mutually perpendicular planes but vibrating in phase
Explanation:
D The electric vector and magnetic vector propagate in planes perpendicular to each other. Phase difference refers to the time difference and since there exist no time difference between the peak of each vector, their phase difference is zero.
AIIMS-2017
Electromagnetic Wave
155542
Electromagnetic waves travel only through
1 material medium
2 vacuum
3 oscillating electric and magnetic fields
4 oscillating electric and magnetic fields whose directions are perpendicular to each other
Explanation:
D Electromagnetic wave travels through oscillating electric \& magnetic field whose directions are perpendicular to each other.
Manipal UGET-2012
Electromagnetic Wave
155544
The electric and the magnetic field associated with an EM wave, propagating along the $+z-$ axis, can be represented by
A EM always propagates in a direction perpendicular to both electric and magnetic field. So, electric and magnetic field should be along $+\mathrm{x}$ and $+\mathrm{y}$ directions respectively.
155526
Which of the following is/are the property/ properties of a monochromatic electromagnetic wave propagating in the free space?
1 1 and 3
2 only 2
3 2 and 3
4 only 4
Explanation:
B The energy contribution of both electric \& magnetic field are equal property of a monochromatic, plane electromagnetic wave in free space.
AP EAMCET (21.04.2019) Shift-I
Electromagnetic Wave
155540
Electromagnetic wave consists of periodically oscillating electric and magnetic vectors
1 in mutually perpendicular planes but vibrating with a phase difference of $\pi$
2 in mutually perpendicular planes but vibrating with a phase difference of $\frac{\pi}{2}$
3 in randomly oriented planes but vibrating in phase
4 in mutually perpendicular planes but vibrating in phase
Explanation:
D The electric vector and magnetic vector propagate in planes perpendicular to each other. Phase difference refers to the time difference and since there exist no time difference between the peak of each vector, their phase difference is zero.
AIIMS-2017
Electromagnetic Wave
155542
Electromagnetic waves travel only through
1 material medium
2 vacuum
3 oscillating electric and magnetic fields
4 oscillating electric and magnetic fields whose directions are perpendicular to each other
Explanation:
D Electromagnetic wave travels through oscillating electric \& magnetic field whose directions are perpendicular to each other.
Manipal UGET-2012
Electromagnetic Wave
155544
The electric and the magnetic field associated with an EM wave, propagating along the $+z-$ axis, can be represented by
A EM always propagates in a direction perpendicular to both electric and magnetic field. So, electric and magnetic field should be along $+\mathrm{x}$ and $+\mathrm{y}$ directions respectively.
155526
Which of the following is/are the property/ properties of a monochromatic electromagnetic wave propagating in the free space?
1 1 and 3
2 only 2
3 2 and 3
4 only 4
Explanation:
B The energy contribution of both electric \& magnetic field are equal property of a monochromatic, plane electromagnetic wave in free space.
AP EAMCET (21.04.2019) Shift-I
Electromagnetic Wave
155540
Electromagnetic wave consists of periodically oscillating electric and magnetic vectors
1 in mutually perpendicular planes but vibrating with a phase difference of $\pi$
2 in mutually perpendicular planes but vibrating with a phase difference of $\frac{\pi}{2}$
3 in randomly oriented planes but vibrating in phase
4 in mutually perpendicular planes but vibrating in phase
Explanation:
D The electric vector and magnetic vector propagate in planes perpendicular to each other. Phase difference refers to the time difference and since there exist no time difference between the peak of each vector, their phase difference is zero.
AIIMS-2017
Electromagnetic Wave
155542
Electromagnetic waves travel only through
1 material medium
2 vacuum
3 oscillating electric and magnetic fields
4 oscillating electric and magnetic fields whose directions are perpendicular to each other
Explanation:
D Electromagnetic wave travels through oscillating electric \& magnetic field whose directions are perpendicular to each other.
Manipal UGET-2012
Electromagnetic Wave
155544
The electric and the magnetic field associated with an EM wave, propagating along the $+z-$ axis, can be represented by
A EM always propagates in a direction perpendicular to both electric and magnetic field. So, electric and magnetic field should be along $+\mathrm{x}$ and $+\mathrm{y}$ directions respectively.
