Difference between revisions of "AY Honors/Geocaching - Advanced/Answer Key"
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==3. Define latitude, longitude. What is meant by degrees, minutes, seconds?== | ==3. Define latitude, longitude. What is meant by degrees, minutes, seconds?== | ||
− | ;Latitude: Latitude describes the north-south position on the globe and is measured in degrees, minutes, and seconds. The 0° line is a circle around the Earth's equator. Latitude measures the angle made by two lines which both originate at the very center of the Earth. The first line extends from the center of the Earth to the equator, and the second line extends from the center of the Earth to the position being described. | + | ;Latitude: Latitude describes the north-south position on the globe and is measured in degrees, minutes, and seconds. The 0° line is a circle around the Earth's equator. Latitude changes as one moves north to south, or south to north. It does not change as one moves from east to west or west to east. |
− | ; | + | ;Longitude: Longitude describes the east-west position on the globe, and like latitude, is also measured in degrees, minutes, and seconds. All longitude lines begin and end at the North and South Poles. The 0° longitude line begins at the North Pole, passes through Greenwich, England, and then continues to the South Pole. Longitude changes as one moves east to west, or west to east. It does not change as one moves from north to south or south to west. |
− | + | ||
− | + | ;Degrees: Most people become familiar with the angular measurement of a ''degree'' in a mathematics class when they are introduced to the protractor. The ''degree'' used in Geocaching is this very same measurement. Latitude measures the angle made by two lines which both originate at the very center of the Earth. The first line extends from the center of the Earth to the equator, and the second line extends from the center of the Earth to the position being described. Longitude is similar, measuring the angle formed by two lines - one extending from the center of the Earth to the equator directly south of Greenwich, England, and the other extending from the center or the Earth to a position on the equator directly north or south of the measured position. | |
− | + | ;Minutes: A degree is not a very precise measurement of an angle when considering something as large as the planet Earth. If only degrees were used to specify a person's position, we could only get within about {{units|100km|62 miles}} of the person's position. Therefore, a degree is divided into 60 finer measurements called ''minutes''. Minutes in Geocaching has little to do with time. | |
+ | ;Seconds: Even with the finer angular resolution of minutes, we can still only get to within about {{units|1670 meters|one mile}} of a person's position, so the minute is divided into seconds. One second can get us to within about {{units|28 meters|92 feet}} of a position, so they are typically specified to a couple of decimal places, as in "25.65 seconds". | ||
+ | |||
+ | Latitude and longitude are specified in degrees, minutes, and seconds, as in 43°22'54.31". Here the number preceding the ° symbol (43) is the number of degrees, the number preceding the ' (22) is the number of minutes, and the number before the " (54.31) is the number of seconds. When we go down to one hundredth of s second, we can specify a location to within about {{units|28 cm|11 inches}}. | ||
==4. Complete two or more of the following:== | ==4. Complete two or more of the following:== |
Revision as of 05:45, 7 September 2007
1. Have Basic Geocaching Honor
2. Briefly describe the origin of the global positioning satellites? What is their history – when and how did they get there? By whom?
History
The design of GPS is based partly on the similar ground-based radio navigation systems, such as LORAN and the Decca Navigator developed in the early 1940s, and used during World War II. Additional inspiration for the GPS system came when the Soviet Union launched the first Sputnik in 1957. A team of U.S. scientists led by Dr. Richard B. Kershner were monitoring Sputnik's radio transmissions. They discovered that, because of the Doppler effect, the frequency of the signal being transmitted by Sputnik was higher as the satellite approached, and lower as it continued away from them. They realized that since they knew their exact location on the globe, they could pinpoint where the satellite was along its orbit by measuring the Doppler distortion.
The first satellite navigation system, Transit, used by the United States Navy, was first successfully tested in 1960. Using a constellation of five satellites, it could provide a navigational fix approximately once per hour. In 1967, the U.S. Navy developed the Timation satellite which proved the ability to place accurate clocks in space, a technology the GPS system relies upon. In the 1970s, the ground-based Omega Navigation System, based on signal phase comparison, became the first world-wide radio navigation system.
The first experimental Block-I GPS satellite was launched in February 1978. The GPS satellites were initially manufactured by Rockwell International and are now manufactured by Lockheed Martin.
Timeline
- In 1972, the US Air Force Central Inertial Guidance Test Facility (Holloman AFB) conducted developmental fight tests of two prototype GPS receivers over White Sands Missile Range, using ground-based pseudo-satellites.
- In 1978 the first experimental Block-I GPS satellite was launched.
- In 1983, after Soviet interceptor aircraft shot down the civilian airliner Korean Air Flight 007 in restricted Soviet airspace, killing all 269 people on board, U.S. President Ronald Reagan announced that the GPS system would be made available for civilian uses once it was completed.
- By 1985, ten more experimental Block-I satellites had been launched to validate the concept.
- On February 14, 1989, the first modern Block-II satellite was launched.
- In 1992, the 2nd Space Wing, which originally managed the system, was de-activated and replaced by the 50th Space Wing.
- By December 1993 the GPS system achieved initial operational capability.
- By January 17, 1994 a complete constellation of 24 satellites was in orbit.
- Full Operational Capability was declared by NAVSTAR in April 1995.
- In 1996, recognizing the importance of GPS to civilian users as well as military users, U.S. President Bill Clinton issued a policy directive declaring GPS to be a dual-use system and establishing an Interagency GPS Executive Board to manage it as a national asset.
- In 1998, U.S. Vice President Al Gore announced plans to upgrade GPS with two new civilian signals for enhanced user accuracy and reliability, particularly with respect to aviation safety.
- On May 2, 2000 "Selective Availability" was discontinued as a result of the 1996 executive order, allowing users to receive a non-degraded signal globally.
- In 2004, the United States Government signed a historic agreement with the European Community establishing cooperation related to GPS and Europe's planned Galileo system.
- In 2004, U.S. President George W. Bush updated the national policy, replacing the executive board with the National Space-Based Positioning, Navigation, and Timing Executive Committee.
- November 2004, QUALCOMM announced successful tests of Assisted-GPS system for mobile phones.
- In 2005, the first modernized GPS satellite was launched and began transmitting a second civilian signal (L2C) for enhanced user performance.
3. Define latitude, longitude. What is meant by degrees, minutes, seconds?
- Latitude
- Latitude describes the north-south position on the globe and is measured in degrees, minutes, and seconds. The 0° line is a circle around the Earth's equator. Latitude changes as one moves north to south, or south to north. It does not change as one moves from east to west or west to east.
- Longitude
- Longitude describes the east-west position on the globe, and like latitude, is also measured in degrees, minutes, and seconds. All longitude lines begin and end at the North and South Poles. The 0° longitude line begins at the North Pole, passes through Greenwich, England, and then continues to the South Pole. Longitude changes as one moves east to west, or west to east. It does not change as one moves from north to south or south to west.
- Degrees
- Most people become familiar with the angular measurement of a degree in a mathematics class when they are introduced to the protractor. The degree used in Geocaching is this very same measurement. Latitude measures the angle made by two lines which both originate at the very center of the Earth. The first line extends from the center of the Earth to the equator, and the second line extends from the center of the Earth to the position being described. Longitude is similar, measuring the angle formed by two lines - one extending from the center of the Earth to the equator directly south of Greenwich, England, and the other extending from the center or the Earth to a position on the equator directly north or south of the measured position.
- Minutes
- A degree is not a very precise measurement of an angle when considering something as large as the planet Earth. If only degrees were used to specify a person's position, we could only get within about 100km of the person's position. Therefore, a degree is divided into 60 finer measurements called minutes. Minutes in Geocaching has little to do with time.
- Seconds
- Even with the finer angular resolution of minutes, we can still only get to within about 1670 meters of a person's position, so the minute is divided into seconds. One second can get us to within about 28 meters of a position, so they are typically specified to a couple of decimal places, as in "25.65 seconds".
Latitude and longitude are specified in degrees, minutes, and seconds, as in 43°22'54.31". Here the number preceding the ° symbol (43) is the number of degrees, the number preceding the ' (22) is the number of minutes, and the number before the " (54.31) is the number of seconds. When we go down to one hundredth of s second, we can specify a location to within about 28 cm.
4. Complete two or more of the following:
a. Establish and maintain a new geocache in your area for at least 6-months.
b. Send out and follow a TB (travel bug) for 6 months.
c. Find 2 travel bugs and follow for 6 months
d. Participate in a geocache meeting or event in your area (attend).
5. What are the laws/rules/guidelines for placing caches in the following locations?
a. State Parks National Park Service
b. Roads and Railroad Right-of-Ways
c. Placing caches while traveling
d. Wilderness Areas in National Forest Areas
e. USDA Forest Service
6. Find and record at least 18 geocaches; include:
a. Traditional cache with 3-star difficulty
b. One Multi-level
c. One virtual
d. One micro
References
- Wikipedia articles