Meteor Crater, Winslow, AZ

Below are photos of Meteor Crater, Winslow, Arizona from my visit in June 2013.   The crater is located about 40 miles southeast of Flagstaff. It was formed when an estimated 45 meter meteorite hit about 50,000 years ago. The first photo shows the crater, nearly one mile across, 2.4 miles in circumference, and about 550 deep.



Panorama of Meteor Crater


Click to enlarge this panorama which was stitched together with Photoshop Elements.  Viewing platforms are in the foreground. Remnants of mining for the meteorite are still visible at the bottom of the crater.  The visitor center is at the far right.  Above that in the photo are the trail used for the guided Rim Tour, and a group of people taking that tour.

At first the crater was thought to be of volcanic origin.  In 1902 Daniel Moreau Barringer, a mining engineer, became convinced the crater was caused by the impact of a large iron meteorite.  He spent the rest of his life mining in the crater in an unsuccessful attempt to find it.  According to the excellent museum at the visitor center and their very informative website, he could not find it because it did not exist--it was broken up into tiny pieces:

• Very small percentage stripped away by atmospheric friction before impact
• Very small percentage vaporized upon impact, then recondensed into tiny fragments raining over a 7 mile radius
• About half blasted out upon impart, landing on the rim and surrounding plain
• About half is present in very tiny fragments beneath the crater floor to a depth of 3,000 feet

Barringer did live long enough to see the scientific community start to accept his theory that the crater was formed by a meteorite.



Meteorite found in Diablo Canyon

 This piece of the meteorite is on display at the Lowell Observatory visitor center.  The sign says, "Meteorite. 535 lbs. 242.6 kg. Found in Canyon Diablo near Meteor Crater. This is a small particle of the meteor which formed Meteor Crater, about 50,000 years ago. 92% iron, 8% nickel, traces of gold, silver, platinum and diamond."

Strata along the rim

 This photo shows the strata at the rim.  Impact craters have been called “nature’s drills” because they sort of invert the strata.  Apollo astronauts trained at Meteor Crater under the guidance of Dr. Eugene Shoemaker (part of the team that discovered Comet Shoemaker-Levy 9) because Meteor Crater is so much like craters on the moon.  By recognizing impact craters on the moon, the astronauts could collect samples of rocks originally from below the surface without having to drill for them.



Distant view of Meteor Crater

 Here is a distant view of the crater. The land around the crater used to be flat until the meteorite hit, creating the impact crater and depositing debris around the rim.

Lowell Observatory, Mars Hill, Flagstaff, Arizona

Below are photos of the historic telescopes of Lowell Observatory, Mars Hill, Flagstaff, Arizona, elevation 7,200 feet, from my visit in June 2013.  The first photo is of the Clark Telescope, a 24” refractor, which Percival Lowell had built in 1896 so that he could study the “canals” on Mars.  The lens was designed by Alvan Clark, the last lens he designed before he retired.



Clark Dome

Observe the non-spherical shape of the Clark Dome.  It was built of locally grown ponderosa pine by the Sykes Brothers, bicycle mechanics, who advertised themselves as “Makers and Menders of Anything”. Mars Hill is an easily accessible hill about one mile west of downtown of Flagstaff.



Clark 24" Refractor Telescope



The Clark Telescope is now used only for public outreach.  It is open for daytime tours and, if weather conditions allow, nighttime viewing until 10 PM every summer evening.   The dome rotates on tires, obtained from the Ford Motor Company and installed in 1957, most including hubcaps, replacing the original worn out metal wheels.



Inside of Clark Dome

The dome is composed of flat planes of wood instead of today’s spherical surfaces.  The roof doors are flat panels that open outward, and turn into sails in high winds, so cannot be opened if the wind exceeds 15 mph.  I did not get to view through the telescope due to the wind.  The lens cover of the large finderscope on the left is a skillet stolen from a good cook's kitchen.



Dome of Pluto Discovery Telescope



Lowell started searching for “Planet X” in 1905 because he thought an unknown planet changed the orbit of Neptune and Uranus, and he continued this search until his death in 1916.  Once his estate was finally settled, Lowell's younger brother, A. Lawrence Lowell, president of Harvard University, provided funds to construct the dome and telescope used to continue the search.  It was completed in 1929.



Pluto Discovery Telescope

Clyde Tombaugh, a Kansas farm boy who got a job at the Lowell Observatory based on the sketches of planets that he had sent, used this astrograph to find Pluto.  The “Pluto Discovery Telescope” has three 13” lenses and 14” x 17” glass photographic plates.  Clyde took one hour exposures of a portion of the sky, then photographed the same portion six days later, and compared the plates.

The tour guide told us that Clyde used the smaller telescope mounted below the astrograph to manually monitor that the astrograph was accurately tracking the stars during the one hour exposure, and manually nudged the astrograph if it was getting off track.  Clyde had to endure cold temperatures because he captured the view of Pluto in January, the dome was unheated, and the elevation of Mars Hill is 7,200 feet.




Pluto Discovery Plates

 

Clyde used the “Zeiss blink comparator” which switches the view between plates for comparison.  Here are replicas of the plates that he used to discover the new planet in his office on February 18, 1930.  It was subsequently named Pluto in homage to Percival Lowell whose initials P.L. are the first two letters in Pluto.  Our tour guide told us, I think tongue in cheek, that in Flagstaff, Pluto is still a planet.

  

The Lowell Observatory is a non-profit research institution, and it runs several other telescopes which are outside the Flagstaff city limits, including the new $53 million, 4.3 meter Discovery Channel Telescope located 40 miles southeast of Flagstaff.

Even though the “canals” Lowell was observing were optical illusions and not signs of life of Mars and even though later evidence showed that no planet was disturbing the orbits of Neptune and Uranus, he made a substantial contribution to astronomy:

• He was the first to build an observatory on a remote site to take advantage of optimal viewing, and now this is standard.
• His enthusiasm about life on Mars spurred public imagination and inspired science fiction writers.
• In 1912 - 1914 Vesto Slipher used a spectrograph attached to the Clark Telescope to determine the red shift in most galaxies which means the galaxies are moving away.  Edwin Hubble used this information with his own research to conclude that the universe is expanding.
• Initial work in the discovery of Pluto.
• The Clark telescope was used to map the moon for the Apollo missions.
• His enthusiasm for public outreach continues.  The visitor center at Mars Hill hosts over 80,000 visitors a years, and also hosts "Uncle Percy's" summer day camps for children from age 3 through 6th grade.