- Source: Retarded time
In electromagnetism, an electromagnetic wave (light) in vacuum travels at a finite speed (the speed of light c). The retarded time is the propagation delay between emission and observation, since it takes time for information to travel between emitter and observer. This arises due to causality.
Retarded and advanced times
Retarded time tr or t′ is calculated with a "speed-distance-time" calculation for EM fields.
If the EM field is radiated at position vector r′ (within the source charge distribution), and an observer at position r measures the EM field at time t, the time delay for the field to travel from the charge distribution to the observer is |r − r′|/c. Subtracting this delay from the observer's time t then gives the time when the field began to propagate, i.e. the retarded time t′.
The retarded time is:
t
′
=
t
−
|
r
−
(
r
′
)
|
c
{\displaystyle t'=t-{\frac {|\mathbf {r} -(\mathbf {r} ')|}{c}}}
(which can be rearranged to
c
=
|
r
−
r
′
|
/
(
t
−
t
′
)
{\displaystyle c=|\mathbf {r} -\mathbf {r} '|/(t-t')}
, showing how the positions and times of source and observer are causally linked).
A related concept is the advanced time ta, which takes the same mathematical form as above, but with a “+” instead of a “−”:
t
a
=
t
+
|
r
−
r
′
|
c
{\displaystyle t_{a}=t+{\frac {|\mathbf {r} -\mathbf {r} '|}{c}}}
This is the time it takes for a field to propagate from originating at the present time t to a distance
|
r
−
r
′
|
{\displaystyle |\mathbf {r} -\mathbf {r} '|}
. Corresponding to retarded and advanced times are retarded and advanced potentials.
Retarded position
The retarded position can be obtained from the current position of a particle by subtracting the distance it has travelled in the lapse from the retarded time to the current time.
For an inertial particle, this position can be obtained by solving this equation:
r
−
r
′
=
r
−
r
c
+
|
r
−
r
′
|
c
v
{\displaystyle \mathbf {r} -\mathbf {r'} =\mathbf {r} -\mathbf {r_{c}} +{\frac {|\mathbf {r} -\mathbf {r'} |}{c}}\mathbf {v} }
,
where rc is the current position of the source charge distribution and v its velocity.
Application
Perhaps surprisingly - electromagnetic fields and forces acting on charges depend on their history, not their mutual separation. The calculation of the electromagnetic fields at a present time includes integrals of charge density ρ(r', tr) and current density J(r', tr) using the retarded times and source positions. The quantity is prominent in electrodynamics, electromagnetic radiation theory, and in Wheeler–Feynman absorber theory, since the history of the charge distribution affects the fields at later times.
See also
Antenna measurement
Electromagnetic four-potential
Jefimenko's equations
Liénard–Wiechert potential
Light-time correction
References
Kata Kunci Pencarian:
- The Black Eyed Peas
- Felicia Day
- Televisi 3D
- Daftar tokoh YouTube
- Alan Tam
- Michelle Pfeiffer
- The E.N.D.
- Laura Dern
- George Segal
- Kesaksian Nayirah
- Retarded time
- Retardation
- Retarded potential
- Liénard–Wiechert potential
- Jefimenko's equations
- Quasistatic approximation
- Magnetic field
- Electric field
- Retarded position
- Magnetic vector potential