Which part of the light wave do we take? (quick question)

  • Thread starter sameeralord
  • Start date
  • Tags
    Light Wave
In summary: Wrong. Electric and Magnetic fields in EM waves DO NOT "create each other". Sorry Wikipedia is wrong on that. (and they won't correct it, because they are determined to keep it wrong) Electric and Magnetic fields of waves are both created by the source of the waves (moving charges) not each other.
  • #1
sameeralord
662
3
Hello,

Quick question. This is a light wave

ems.gif


This is another light wave

http://www.chem.yale.edu/~chem125/125/xray/DiffractionMasks/sinpositiont1.JPG

Why doesn't this graph have another perpendicular graph. Are they talking about the particles in the magnetic field or electric field here or both.

Simply how do they make one wave out of a light wave that has two waves.
 

Attachments

  • ems.gif
    ems.gif
    82.2 KB · Views: 474
  • ems.gif
    ems.gif
    82.2 KB · Views: 344
  • ems.gif
    ems.gif
    82.2 KB · Views: 378
  • ems.gif
    ems.gif
    82.2 KB · Views: 334
Last edited by a moderator:
Science news on Phys.org
  • #2
sameeralord said:
Why doesn't this graph have another perpendicular graph. Are they talking about the particles in the magnetic field or electric field here or both.
While your first diagram seems like the usual depiction of an EM wave (which is what light is, classically), it's not clear what that second diagram is supposed to show. (It looks like it's meant to depict the force on some charged particle.)
Simply how do they make one wave out of a light wave that has two waves.
A light wave has both electric and magnetic fields, which are at right angles to each other. But that doesn't mean you always have to show both in a diagram.
 
  • #3
Doc Al said:
While your first diagram seems like the usual depiction of an EM wave (which is what light is, classically), it's not clear what that second diagram is supposed to show.

A light wave has both electric and magnetic fields, which are at right angles to each other. But that doesn't mean you always have to show both in a diagram.

Thanks Doc Al! :smile: So most of the time I think they show the electric field. When light has a particular freuqency would both electric and magnetic waves travel at that frequency. I think they do because one is created from the other.
 
  • #4
sameeralord said:
When light has a particular freuqency would both electric and magnetic waves travel at that frequency.
Yes.
 
  • #5
Doc Al said:
Yes.

Thanks Doc Al :smile: Topic closed unless someone wants to start the topic if light is a wave or particle :smile:
 
  • #6
sameeralord said:
Thanks Doc Al! :smile: So most of the time I think they show the electric field. When light has a particular freuqency would both electric and magnetic waves travel at that frequency. I think they do because one is created from the other.

Wrong. Electric and Magnetic fields in EM waves DO NOT "create each other". Sorry Wikipedia is wrong on that. (and they won't correct it, because they are determined to keep it wrong) Electric and Magnetic fields of waves are both created by the source of the waves (moving charges) not each other.
 

1. What is the meaning of "which part of the light wave do we take?"

The phrase "which part of the light wave do we take?" refers to the different components or properties of light waves that can be measured or utilized in various experiments or applications.

2. What are the different parts of a light wave?

A light wave has two main components - the electric field and the magnetic field. These fields oscillate perpendicular to each other and to the direction of the wave's propagation.

3. How are the different parts of a light wave measured?

The different parts of a light wave can be measured using various instruments such as spectrometers, interferometers, and polarimeters. These instruments measure different properties of light such as intensity, wavelength, and polarization.

4. What is the significance of knowing which part of the light wave to take?

Understanding which part of the light wave to take is crucial in many scientific fields such as optics, astronomy, and telecommunications. It allows scientists to accurately analyze and manipulate light for various applications.

5. Can we take more than one part of the light wave at a time?

Yes, it is possible to take more than one part of the light wave at a time. In fact, many experiments and applications require the measurement or manipulation of multiple components of a light wave. This can be achieved using specialized equipment and techniques.

Similar threads

Trying to Understand the Polarization of light
    • Optics
Replies
6
Views
13K
Light as an electromagnetic wave
    • Electromagnetism
Replies
2
Views
839
Understanding the Movement of Light: Wave Theory vs. Particle Theory
    • Optics
Replies
6
Views
1K
Light is a transverse oscillitating wave (can't conceptualize)
    • Optics
Replies
2
Views
1K
Understanding the Behavior of EM Waves: A Scientist's Perspective
    • Optics
Replies
20
Views
2K
A Is the quantum mechanics explanation for the propagation of light adequate enough to be understood?
    • Quantum Physics
Replies
6
Views
398
I Why do we still say “the speed of light” instead of “c”?
    • Classical Physics
Replies
12
Views
945
How do water waves and light waves propagate in different directions?
    • Optics
Replies
2
Views
2K
Exploring the Nature of Light and Color
    • Optics
2
Replies
66
Views
5K
How does polarization show the wave nature of light?
    • Introductory Physics Homework Help
Replies
1
Views
941

Hot Threads

Recent Insights

Back
Top