Friday, February 25, 2011

Jacobus Kapteyn

Jacobus Kapteyn



Jacobus Cornelius Kapteyn was born on January 19, 1851 in Barneveld, Gelderland, a small province of the Netherlands.  After creating an impressive reputation for his studies of the Milky Way and discovering evidence for galactic rotation, he died on June 18, 1922, at age 71.  
Kapteyn was a Dutch astronomer who attended the University of Utrecht in 1868 where he studies physics and mathematics.  In 1875, he finished his thesis and proceeded to work at the Leiden Observatory.  He then became a professor at the University of Groningen.  Because he did not have an observatory, he volunteered measuring photographic plates, which were taken by David Gill.  Gill was conducting a survey at the Royal Observatory at the Cape of Good Hope.  The final product contained a list of 454,875 stars in the Southern Hemisphere and their positions and magnitudes.  In 1897, during his volunteer work, Kapteyn discovered a star with the highest proper motion at the time.  It was named “Kapteyn’s Star”.  
In 1904, Jacobus Kapteyn discovered the first extreme evidence of the rotation of our galaxy.  While studying the proper motions of stars, he determined that the motion of stars being random was a misconception.  In fact, stars could be divided in two separate streams moving in opposite directions.  This evidence eventually led to the discovery of galactic rotation, by Bertil Lindbald and Jan Oort.
Two years later, the Dutch astronomer launched a plan in which the radial velocity, proper motion, apparent magnitude, and spectral type would be measured in 206 zones, in order to measure the distribution of stars in the Galaxy.  This plan involved the cooperation of 40 observatories, and was the first coordinated statistical analysis in astronomy.
In 1913, Kapteyn was awarded the prestigious James Craig Watson Medal, a medal awarded by the U.S. National Academy of Sciences for contributions to astronomy.  He then retired in 1921 and returned to work at the Leiden Observatory.  Here, at the age of seventy, he helped upgrade the observatory to contemporary astronomical standards. 
Jacobus Kapteyn’s life-work was published in 1922, shortly before his death.  It consisted of a theory now called “Kapteyn’s Universe”.  In this theory, the universe is described as “lens-shaped” and the density decreased away from the center of it.  Today, this model is deemed accurate in high galactic altitudes, but fails in the galactic plane because of our modern knowledge of interstellar absorption. 
Several things have been named after him in honor of his great contributions to astronomy.  There is a crater on the moon, the “Kapteyn Crater”, which was named after him, and a telescope located on La Palma in the Canary Islands, the “Jacobus Kapteyn Telescope”.
Reviewing Kapteyn’s great legacy in astronomy, it is no wonder why he is so highly regarded in the astronomical world.  His contributions helped us get to where we are today and he deserves all the recognition he has/is receiving.  One cannot help but wonder what more incredible discoveries he would make if he were still living today!
Work Cited
Dictionary of Scientific Biography, C. Gillispie, editor.  Charles Scribner’s Son. 1981
"Jacobus C. Kapteyn." NNDB: Tracking the Entire World. Web. 25 Feb. 2011. <http://www.nndb.com/people/657/000170147/>.
"Jacobus Kapteyn." Citizendium. Web. 25 Feb. 2011. <http://en.citizendium.org/wiki/Jacobus_Kapteyn>.

Thursday, February 17, 2011

APOD 3.4

Colors in Orion

Temperature determines a star's color.  Red stars have a low temperature of about 3,000 K.  Blue stars are much hotter and have a temperature of over 30,000 K.  Our yellow Sun has a temperature of 6,000 K.  In this picture of Orion, several stars of many colors are visible.  It was made of 35 exposures in which the stars were moving left to right through the frame.  The focus was changed in steps.  Ultimately, the stars are shown in a bow-tie shape.  Betelguese is in the upper left of the picture.  It is a bright red star in the constellation.  Betelgeuse is considered a red supergiant.  The Orion Nebula is also visible in the center of the picture in a pinkish color.

Astronomy Cast Ep. 194

Dwarf Planets

Dwarf planets have been debated over for years and years now.  Pluto has recently joined Eris and the astroid Ceres as a dwarf planet, after being known as a planet for several decades.  The demotion of Pluto was triggered by observations of Eris, which was a giant icy body, actually bigger than Pluto.  This also resulted in scientists reanalyzing the rules of being a planet.  The first rule is it must be round.  The second rule is it must be orbiting the Sun.  The third rule is it needs to have cleared out its own orbit.

Astronomy Cast Ep. 210

Mars Exploration Rovers

This podcast discusses the rovers that are currently on Mars.  There are two rovers named Spirit and Opportunity.  They have been on the surface of Mars since 2004, and have outlived what they were expected.  Within the past 6 years we have gained a better understanding about Mars than over the last billion years.  The rovers have discovered land where there were traces of past water.  The rovers are now searching through layers of sediment in search of water.  They will be launching another mission this year in which they will launch an SUV-sized laboratory to probe Mars in search of life.

Friday, February 11, 2011

APOD 3.3

Gibbous Europa

This is a photograph of one of Jupiter's moons, Europa.  It is in its gibbous phase.  Galileo, the robot spacecraft, took this picture during its 1995-2003 mission orbiting Jupiter.  You can clearly see the many features of the moon including its bright ice, dark patches, and long cracks that run down to the horizon.  Europa is smoother than our moon, but it is about the same size.  The Galileo spacecraft gives evidence that there might actually be liquid oceans flowing beneath the icy surface!  NASA and ESA have planned the Jupiter System Mission in hopes of finding life in the oceans.  It will launch in 2020 and it will explore Jupiter, but Europa in particular.  Because the surface of Europa is thin, they hope to be able to drop hydrobots that will break the surface and search for life in the ocean!!