Tuesday, March 29, 2011

Fastest Stuff in the Universe: The Electromagnetic Spectrum

What goes at the speed of light? Well, a few different things actually. The Electromagnetic Spectrum is the group of types of radiation that goes at the speed of light. These types pf radiation are also known as waves. When high energy objects move at high speeds through space, they give off these electromagnetic waves. The most unique characteristic of these waves is the way it travels. Electromagnetic Waves are the only waves that do not need a medium, also known as molecules to travel through. They can travel through a vacuum. There are seven types of these waves. The waves all travel at the same velocity (the speed pf light). However, where each type of waves differ is in their wavelength, which affects their frequency and energy. The shorter the wavelength, the higher the frequency and the more energy there is.The waves with the longer wavelength are radio waves, followed by microwaves then infrared waves. Visible waves are next with a shorter wavelength, then ultraviolet rays. X-rays have a shorter wavelength than ultraviolet rays. Finally, coming in with the shortest wavelength, highest frequency, and most energy are gamma-rays.

Infrared waves are low level light that is emitted by objects too cool to radiate visible light. Infrared waves are not visible normally. However, they are visible using special cameras that "see" infrared waves. The wavelength of infrared waves varies between 10e-6 and 10e-3 meters long. The frequency varies between 2.481e14 and 3.171e11 Hz. Infrared waves are used for detecting low level light. Thermal imaging cameras are really infrared wave detectors. these types of cameras are used in many forms. Night vision goggles are infrared light detectors. Also, these cameras are used in telescopes to see through the dust around stars, such as nebulae, and see the stars themselves.

Two images showing the Carina Nebula in different wavelengths. The Visible Light image reveals a brilliant display of yellow and gold dust lit up by stars. The Infrared image only shows the bright stars that were behind the dust.

Another type of waves are gamma-rays. Gamma-rays have the shortest wavelengths, from 5.577e-12 meters and shorter. They have the highest frequency, from 5.376e19 Hz and higher. Gamma-rays are only emitted by the hottest objects in the universe, such as pulsars, neutron stars, supernovas, and the areas around black holes. They are detected on Earth in nuclear explosions, lightning, and radioactive decay. Gamma-rays are used in radiation therapy. Also, they are used to map out galaxies and supernovas. Gamma-rays can even show what molecules on planet's surface are made of.

An image of a gamma ray burst seen in gamma rays on left show s a bright burst of yellow, orange and red. The image on the right shows the same burst in visible and Ultraviolet as just a bright star in the center with some slight red and green coloring surrounding the star.

And, as always, a Tagxedo of the seven types of waves:


Posted by at

3 comments:

  1. RyanMarch 31, 2011 at 8:19 PM

    I love the post, good depth, just enough detail without boring the audience, and you keep it interesting and not just a list of facts. There are a few typo's in the introduction where you hit "p" instead of "o" when typing "of" but other than that, I like this post. There is one last thing and that is I think you should mention more characteristics about these waves in general just not the technicalities of them. That's all, nice post.

    ReplyDelete
  2. MattApril 3, 2011 at 2:22 PM

    Thanks for the advice Ryan!

    ReplyDelete
  3. dgendeApril 7, 2011 at 3:33 AM

    Excellent posting, very thorough and detailed.
    I appreciate that you give the images attributions right under the images.

    Great job!

    ReplyDelete

Subscribe to: Post Comments (Atom)