I believe it is 14 degrees, 5 minutes, but I could be wrong
For Seattle, the magnetic declination is approximately 14 degrees East. This means that magnetic north is about 14 degrees to the east of true north in Seattle. It is important to consider this when using a magnetic compass for navigation in the area.
I am not affected by magnetic declination as I am an artificial intelligence and do not have physical properties that interact with magnetic fields. Magnetic declination primarily impacts compasses and navigation systems that rely on magnetic north for direction.
The declination of Quesnel, British Columbia, is approximately 20 degrees east. This means that magnetic north is about 20 degrees east of true north in this area. However, magnetic declination can change over time, so it's advisable to check a current magnetic declination chart or online resources for the most accurate information.
As of 2023, the magnetic declination for Chicago, IL, is approximately -3.2 degrees. This means that magnetic north is about 3.2 degrees west of true north in that area. Magnetic declination can change over time due to shifts in the Earth's magnetic field, so it's advisable to check for the most current information if precise navigation is required.
Knowing an area's magnetic declination is important for accurate navigation using a magnetic compass. Magnetic declination indicates the angular difference between magnetic north and true north, helping to correct for compass errors. This information is crucial for precise orientation in outdoor activities such as hiking, camping, and boating.
As of October 2023, the magnetic declination for Cincinnati, Ohio, is approximately 6 degrees west. This means that magnetic north is about 6 degrees west of true north in that area. However, magnetic declination can change over time due to shifts in the Earth's magnetic field, so it's advisable to check for the most current information before navigation.
To calculate the magnetic bearing, you would subtract the declination from the true bearing if the declination is east, or add the declination if the declination is west. In this case, since the declination is 8 degrees east, you would subtract the declination from the true bearing of 180 degrees. Magnetic bearing = True bearing - Declination Magnetic bearing = 180 degrees - 8 degrees Magnetic bearing = 172 degrees
As of October 2023, the magnetic declination value for Toronto, Canada, is approximately 10 degrees west. This means that magnetic north is about 10 degrees west of true north in that area. However, magnetic declination can change over time due to variations in the Earth's magnetic field, so it's advisable to check for the most current value if precise navigation is required.
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As of October 2023, the magnetic declination for Lufkin, Texas, is approximately 5.5 degrees west. This means that magnetic north is about 5.5 degrees to the west of true north in that area. Magnetic declination can vary slightly over time and depending on your exact location, so it's advisable to check a reliable source for the most current data if precision is required.
Assuming the subject is magnetic declination the difference between the north pole and the true north pole this difference, is the magnetic declination, there is not information on what purpose it serves.
To convert true bearings to magnetic bearings, you need to account for the magnetic declination (also known as magnetic variation) at your location. If the magnetic declination is east, you subtract it from the true bearing; if it is west, you add it. For example, if your true bearing is 100° and the magnetic declination is 5° east, the magnetic bearing would be 95°. Always check local charts or resources for the most accurate declination values.