Difference between revisions of "England-2011-lab1-orange"

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#* For the distance to the Prime Meridian I calculated my pace by walking the length of the [http://en.wikipedia.org/wiki/Cutty_Sark Cutty Sark] 3 times, averaging the number of paces, and then dividing the known LOA of 280' <ref>[http://en.wikipedia.org/wiki/Cutty_Sark Cutty Sark]</ref> by that value.  Using this method my pace was determined to be 2.5'.  Using the hand-held compass as a guide I walked a line due East from the spot to the Prime Meridian keeping track of the number of paces.  I then reversed my direction and walked back to the spot following the same path.  I averaged the number of paces from the two trips and then multiplied that value by 2.5' to obtain an estimate of the distance.
 
#* For the distance to the Prime Meridian I calculated my pace by walking the length of the [http://en.wikipedia.org/wiki/Cutty_Sark Cutty Sark] 3 times, averaging the number of paces, and then dividing the known LOA of 280' <ref>[http://en.wikipedia.org/wiki/Cutty_Sark Cutty Sark]</ref> by that value.  Using this method my pace was determined to be 2.5'.  Using the hand-held compass as a guide I walked a line due East from the spot to the Prime Meridian keeping track of the number of paces.  I then reversed my direction and walked back to the spot following the same path.  I averaged the number of paces from the two trips and then multiplied that value by 2.5' to obtain an estimate of the distance.
 
# Silva bog standard hand-held compass, circa 1975
 
# Silva bog standard hand-held compass, circa 1975
#* While holding the compass on the outstretched palm of your hand, and using the centering bubble to ensure that it's level, a reasonably accurate reading can be taken if you hold your head directly above the compass and look straight down.
+
#* While holding the compass on the outstretched palm of your hand, and using the centering bubble to ensure that it's level, a reasonably accurate reading can be taken if you hold your head directly above the compass and look straight down.
 +
 
 +
Measurements for each dimension were determined by averaging the three readings together.
  
 
==== Sources of Error ====
 
==== Sources of Error ====
 
There are many sources of error, built-in and human, when using navigation instruments such as those employed for this lab.  Below is a discussion of those as they apply to each instrument.
 
There are many sources of error, built-in and human, when using navigation instruments such as those employed for this lab.  Below is a discussion of those as they apply to each instrument.
  
* GPS - Each GPS system has built-in error which varies depending on the specific unit, the number of satellites which are "visible" in the sky, and other internal factors.  The Garmin unit I used displayed the accuracy of measurements each time it powered-up and acquired satellites.  Each time I used it in Greenwich it stated that it had 3m accuracy.  Greenwich is also home to the GPS Meridian, the 0 degree longitude for the GPS system.  This meridian lies approximately 100m East of the Prime Meridian <ref>[http://en.wikipedia.org/wiki/Prime_Meridian Prime Meridian]</ref> which can cause confusion when using a GPS to measure the distance from a given location to the Prime Meridian.
+
* GPS - Each GPS system has built-in error which varies depending on the specific unit, the number of satellites which are "visible" in the sky, and other internal factors.  The Garmin unit I used displayed the accuracy of measurements each time it powered-up and acquired satellites.  Each time I used it in Greenwich it stated that it had 3m accuracy.  Greenwich is also home to the GPS Meridian, the 0 degree longitude for the GPS system.  This meridian lies approximately 100m East of the Prime Meridian <ref>[http://en.wikipedia.org/wiki/Prime_Meridian Prime Meridian]</ref> which can cause confusion when using a GPS to measure the distance from a given location to the Prime Meridian.
* Google Earth - It's difficult to determine exactly what the internal accuracy of Google Earth is, the variety of sources used for the imagery and the variety of resolutions further confound matters.  According to the Resolution and Accuracy section of the Wikipedia article on Google Earth <ref>[http://en.wikipedia.org/wiki/Google_Earth#Resolution_and_accuracy Google Earth - Resolution and Accuracy]</ref> London's imagery is high resolution.  When using Google Earth to determine latitude, etc. the largest source of error is probably in the positioning of the mouse pointer.  Not all platforms support changing the pointer from the default hand which is difficult to use to with any precision to something like an arrow which would improve the precision.
+
* Google Earth - It's difficult to determine exactly what the internal accuracy of Google Earth is, the variety of sources used for the imagery and the variety of resolutions further confound matters.  According to the Resolution and Accuracy section of the Wikipedia article on Google Earth <ref>[http://en.wikipedia.org/wiki/Google_Earth#Resolution_and_accuracy Google Earth - Resolution and Accuracy]</ref> London's imagery is high resolution.  When using Google Earth to determine latitude, etc. the largest source of error is probably in the positioning of the mouse pointer.  Not all platforms support changing the pointer from the default hand which is difficult to use to with any precision to something like an arrow which would improve the precision.
 
* Compass - The user must hold the instrument level, manually account for declination (approximately -2°25' in London) <ref>[http://www.threelittlemaids.co.uk/magdec/explain.html Magnetic Declination Explanation]</ref> and parallax in reading the instrument are the primary sources of error.  Compared to the other sources of error the magnetic declination in London is insignificant.
 
* Compass - The user must hold the instrument level, manually account for declination (approximately -2°25' in London) <ref>[http://www.threelittlemaids.co.uk/magdec/explain.html Magnetic Declination Explanation]</ref> and parallax in reading the instrument are the primary sources of error.  Compared to the other sources of error the magnetic declination in London is insignificant.
 
* Estimation - It's difficult to walk at a consistent pace over more than a short distance, say a couple of hundred feet, finding a straight path between two points in a city such as Greenwich is also difficult.  One often has to make a "jog", going North or South for a distance around a fence, etc. before continuing to travel East.
 
* Estimation - It's difficult to walk at a consistent pace over more than a short distance, say a couple of hundred feet, finding a straight path between two points in a city such as Greenwich is also difficult.  One often has to make a "jog", going North or South for a distance around a fence, etc. before continuing to travel East.
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|}
 
|}
  
== Extra Credit: Visualization ==
+
Directly North of the location is the intersection of two roads.
Map with circle?  A basic visualization which utilizes an aerial image with a placemark at the spot, labeled with the coordinates, and visual indications of the "zone of error" for each of the tools/methods you employed.
+
 
 +
Directly South of the location is something really interesting.
 +
 
 +
The distance to the Prime Meridian as determined by Google Earth is xx.xx +/- 10m, by estimation it is xx.xx +/- 20m.
  
 
== Appendix A: Raw Data ==  
 
== Appendix A: Raw Data ==  
table
+
{| border="1"
 +
! Dimension || Instrument || Reading 1 || Reading 2 || Reading 3
 +
|-
 +
| Latitude || GPS || align="right" | xx.xx || align="right" | xx.xx || align="right" | xx.xx
 +
|-
 +
|                || Google Earth || align="right" | xx.xx || align="right" | xx.xx || align="right" | xx.xx
 +
|-
 +
|                || Estimation || align="right" | xx.xx || align="right" | xx.xx || align="right" | xx.xx
 +
|-
 +
| Longitude || GPS || align="right" | xx.xx  || align="right" | xx.xx || align="right" | xx.xx
 +
|-
 +
|                    || Google Earth || align="right" | xx.xx  || align="right" | xx.xx || align="right" | xx.xx
 +
|-
 +
|                    || Estimation || align="right" | xx.xx  || align="right" | xx.xx || align="right" | xx.xx
 +
|-
 +
| Elevation || GPS || align="right" | xx.xx  || align="right" | xx.xx || align="right" | xx.xx
 +
|-
 +
|                  || Google Earth || align="right" | xx.xx  || align="right" | xx.xx || align="right" | xx.xx
 +
|-
 +
|                  || Estimation || align="right" | xx.xx  || align="right" | xx.xx || align="right" | xx.xx
 +
|}
 +
 
 +
&nbsp;
 +
 
 +
{| border="1"
 +
! Dimension || Instrument || Reading 1 || Reading 2 || Reading 3
 +
|-
 +
| Distance to Prime Meridian || Google Earth || align="right" | xx.xx || align="right" | xx.xx || align="right" | xx.xx
 +
|-
 +
|                                                  || Estimation || align="right" | xx.xx || align="right" | xx.xx || align="right" | xx.xx
 +
|}
  
 
== References ==  
 
== References ==  
 
<references />
 
<references />

Latest revision as of 01:57, 23 February 2011

Lab Write-up for the Orange Group (Charlie)

  • 22 February 2011
  • N.B. - I did not collect any data or do any of the work described below, it's purely an example of one way to write-up a lab report. The procedures, error analysis and such are accurate, just the data has been faked.

Overview

Greenwich, England is home to the Prime Meridian, the arbitrary line that signifies 0 degree longitude for global navigation. The lab assignment, Where am I?, asks us to determine where a particular location in Greenwich is located using different tools/methods to determine the latitude, longitude, elevation and distance to the Prime Meridian of that location.

Data Collection

The spot I was assigned was just outside the Starbucks in Greenwich:

View of the store at 54-56 Greenwich Church St

The lab instructions specify that we should use three different tools/methods to determine the latitude, longitude and elevation. Listed below are the choices I made:

  • Latitude - GPS, Google Earth, and estimation
  • Longitude - GPS, Google Earth, and estimation
  • Elevation - GPS, Google Earth, and estimation

Next the instructions ask us to determine what is due North and due South of that location:

  • North - compass and visual observation
  • South - compass and visual observation

Lastly the instructions ask us to determine the distance from that spot to the Prime Meridian using two different tools/methods, I used Google Earth and estimation for this quantity.

Equipment and Procedures

  1. Garmin etrex handheld consumer GPS unit, software version 3.5.0
    • Using the GPS involves powering it on, waiting for it to acquire enough satellite signals, noting the margin of error, and then switching the mode to waypoint which displays the latitude, longitude, and elevation. To obtain three readings I slowly spun in a full circle while chanting "umm" and then stopped and waited for the GPS to produce a new reading.
  2. Google Earth software, version 6.0.1.2032 (beta), running under OSX 10.6.6
    • Once Google Earth is launched you can enter the location of interest in the search box and then zoom-in to the appropriate magnification for the task at hand. To obtain three readings I moved the mouse around on the screen and then returned it to the point of interest and re-read the latitude, longitude and elevation from the status bar on the bottom of the screen.
  3. Estimation using a 48 year old white male American with a background in science and engineering
    • For the latitude I used the lamp post across the street and noted the latitude marked on it.
    • For the longitude I used the lamp post across the street and noted the longitude marked on it.
    • For the elevation I used the lamp post across the street and noted the elevation marked on it.
    • For the distance to the Prime Meridian I calculated my pace by walking the length of the Cutty Sark 3 times, averaging the number of paces, and then dividing the known LOA of 280' <ref>Cutty Sark</ref> by that value. Using this method my pace was determined to be 2.5'. Using the hand-held compass as a guide I walked a line due East from the spot to the Prime Meridian keeping track of the number of paces. I then reversed my direction and walked back to the spot following the same path. I averaged the number of paces from the two trips and then multiplied that value by 2.5' to obtain an estimate of the distance.
  4. Silva bog standard hand-held compass, circa 1975
    • While holding the compass on the outstretched palm of your hand, and using the centering bubble to ensure that it's level, a reasonably accurate reading can be taken if you hold your head directly above the compass and look straight down.

Measurements for each dimension were determined by averaging the three readings together.

Sources of Error

There are many sources of error, built-in and human, when using navigation instruments such as those employed for this lab. Below is a discussion of those as they apply to each instrument.

  • GPS - Each GPS system has built-in error which varies depending on the specific unit, the number of satellites which are "visible" in the sky, and other internal factors. The Garmin unit I used displayed the accuracy of measurements each time it powered-up and acquired satellites. Each time I used it in Greenwich it stated that it had 3m accuracy. Greenwich is also home to the GPS Meridian, the 0 degree longitude for the GPS system. This meridian lies approximately 100m East of the Prime Meridian <ref>Prime Meridian</ref> which can cause confusion when using a GPS to measure the distance from a given location to the Prime Meridian.
  • Google Earth - It's difficult to determine exactly what the internal accuracy of Google Earth is, the variety of sources used for the imagery and the variety of resolutions further confound matters. According to the Resolution and Accuracy section of the Wikipedia article on Google Earth <ref>Google Earth - Resolution and Accuracy</ref> London's imagery is high resolution. When using Google Earth to determine latitude, etc. the largest source of error is probably in the positioning of the mouse pointer. Not all platforms support changing the pointer from the default hand which is difficult to use to with any precision to something like an arrow which would improve the precision.
  • Compass - The user must hold the instrument level, manually account for declination (approximately -2°25' in London) <ref>Magnetic Declination Explanation</ref> and parallax in reading the instrument are the primary sources of error. Compared to the other sources of error the magnetic declination in London is insignificant.
  • Estimation - It's difficult to walk at a consistent pace over more than a short distance, say a couple of hundred feet, finding a straight path between two points in a city such as Greenwich is also difficult. One often has to make a "jog", going North or South for a distance around a fence, etc. before continuing to travel East.

Results

Dimension Instrument Measurement
Latitude GPS xx.xx +/- 3m
Google Earth xx.xx +/- 3m
Estimation xx.xx +/- 3m
Longitude GPS xx.xx +/- 3m
Google Earth xx.xx +/- 3m
Estimation xx.xx +/- 3m
Elevation GPS xx.xx +/- 3m
Google Earth xx.xx +/- 3m
Estimation xx.xx +/- 3m

Directly North of the location is the intersection of two roads.

Directly South of the location is something really interesting.

The distance to the Prime Meridian as determined by Google Earth is xx.xx +/- 10m, by estimation it is xx.xx +/- 20m.

Appendix A: Raw Data

Dimension Instrument Reading 1 Reading 2 Reading 3
Latitude GPS xx.xx xx.xx xx.xx
Google Earth xx.xx xx.xx xx.xx
Estimation xx.xx xx.xx xx.xx
Longitude GPS xx.xx xx.xx xx.xx
Google Earth xx.xx xx.xx xx.xx
Estimation xx.xx xx.xx xx.xx
Elevation GPS xx.xx xx.xx xx.xx
Google Earth xx.xx xx.xx xx.xx
Estimation xx.xx xx.xx xx.xx

 

Dimension Instrument Reading 1 Reading 2 Reading 3
Distance to Prime Meridian Google Earth xx.xx xx.xx xx.xx
Estimation xx.xx xx.xx xx.xx

References

<references />