Absolute Magnitude Luminates Absolutely

This week I want to discuss “What might cause the closer of two identical stars to appear dimmer than the farther one?”

Apparent Magnitude: A measurement of the brightness of stars without regard to their distance from Earth.

  • The scale in use today starts with the star Vega and an apparent magnitude of 0.0
  • Objects brighter than Vega are assigned negative numbers.  For example. Sirius, the night’s brightest star, has an apparent magnitude of -1.44
  • The scale was extended to include the dimmest stars visible through binoculars and telescopes.  For example, a pair of binoculars can see stars with an apparent magnitude of +10

Ignoring distance for a moment, all other things being equal, the closer of two identical stars will appear brighter (have a smaller apparent magnitude) to us than the more distant star.  When we account for the difference in distance, we use either or two measurements:  absolute magnitude and luminosity.

Absolute Magnitude: The brightness a star would have at a distance of ten parsecs (10 pc) or 32.6 ly.

To understand the relationship between apparent and absolute magnitude, we need to know how an object’s brightness changes with distance.  If we observe two identical stars, one of which is twice as far away as the other, how much dimmer will the more distant star be as seen from Earth?  Light quickly decreases in brightness as distance increases, adhering to the inverse-square law where apparent brightness decreases inversely with the square of the distance between the source and the observer.  Returning to our two identical stars, the more distant star’s brightness decreases to a quarter (one divided by two squared) of its closer twin.

Parallax: When nearby objects appear to shift their position against a distant background as we move.  Stellar Parallax is the apparent motion of nearby stars among the background of more distant stars as a results of Earth’s orbit around the Sun.  By measuring the parallax angle and a bit of geometry, astronomers can determine the distances to nearby stars.

Luminosity: Total amount of electromagnetic power or the energy emitted each second.

Absolute magnitudes allow us to make comparisons between stellar energy outputs, but astronomers need to know the total amount of energy released.  Greater luminosity infers brighter stars when compared to stars with lower luminosities.

Closer but Dimmer?

Returning to my original discussion topic question, taking into consideration what I’ve learned this week, how could a closer star appear dimmer than one farther away?  Hardly seems possible, especially when taking into account how drastically light dissipates over distance.   But if the luminosity of the closer star is low, in other words, it’s energy output is wan or waning, then the farther star, having a higher luminosity, high enough to overcome the loss of light over the greater distance, then perhaps the closer star could appear dimmer to us.

In closing, I wanted to share a graphic that has stuck in my memory for several years now.  It’s easy to forget that the night sky, the celestial dome over our heads, is not just a bowl with stars studding the interior, all of equal distance to us.  That’s the trap the we were stuck in for centuries known as the geocentric model.  Instead, when we connect the dots between the brighter easily visible stars in the night sky, the lines are an illusion of two-dimensionality.   Below is a graphic illustrating the perception versus the reality in the Big Dipper asterism:

References

Comins, N. F. (2015). Chapter 10 Characterizing Stars. In Discovering the essential universe (6th ed., pp. 293-315). New York, NY: W.H. Freeman and Company.

McClure, B. (2017, March 24). Know the Big and Little Dippers | Favorite Star Patterns | EarthSky. Retrieved from http://earthsky.org/favorite-star-patterns/big-and-little-dippers-highlight-northern-sky

About mossjon314159

Avid reader (see my book reviews and ratings here), amateur astronomer and photographer, sporadic crocheter and Rottweiler spoiler.
This entry was posted in Astronomy, Constellations, Mathematics, Science, Sirius, Stars, STEM, Ursa Major, Vega and tagged , , , , , , . Bookmark the permalink.

Leave a Reply

Fill in your details below or click an icon to log in:

WordPress.com Logo

You are commenting using your WordPress.com account. Log Out /  Change )

Google photo

You are commenting using your Google account. Log Out /  Change )

Twitter picture

You are commenting using your Twitter account. Log Out /  Change )

Facebook photo

You are commenting using your Facebook account. Log Out /  Change )

Connecting to %s