Magnetic declination and finding the moon

Ned Rozell
907-474-7468
Jan. 19, 2023

A full moon rises in a pink sky above a hotel and an office building.
Photo by Dan Joling
The full moon rises over two buildings in Anchorage, Alaska’s largest city, on Jan. 6, 2023.

Dan Joling of Anchorage was set to photograph the full moon rising over the Port of Anchorage on Jan. 6, 2023. His research told him the moon would pop over the horizon at a certain number of degrees from north. Guided by the compass feature on his iPhone, Joling aimed his camera that way.

He waited. Suddenly, the moon rose far to the left of where he expected. He jumped in his car and drove to an overlook near West High School. There, he captured the shot with the backdrop he wanted.

What went wrong? Joling’s phone did not calculate the difference between magnetic north and true north.

True north is the straight-line direction toward the geographic north pole of the Earth. Magnetic north, the default setting of Joling’s phone compass, is often many degrees off from true north, depending on where you are on the planet.

True north is the north displayed on maps. Most GPS units adjust automatically for the difference between magnetic north and true north.

What is magnetic north, and why does an old-school compass needle point to it? Because Earth is a giant magnet.

Deep within our planet is a liquid core, a ball of molten iron and nickel. It is slightly smaller than the moon. When the core rotates, the sloshing of molten iron and nickel produces an electric current, which produces a magnetic force. Ground zero for this force is the elusive spot known as the magnetic north pole.

The magnetic north pole is now north of Canada’s Arctic islands, hundreds of miles south of the geographic north pole. It drifts more than 25 miles each year, and seems to be headed for Siberia.

The moon rises above a collection of tall buildings.
Photo by Dan Joling
The moon rises over downtown Anchorage on Jan. 6, 2023.

The difference between magnetic north and true north is known as degrees of declination.

The Fairbanks declination I set on my works-with-no-battery handheld compass in 2003 adjusted for a geographic north reading that was 24 degrees west of magnetic north. If I were to find that compass in my closet today, I would need to change the declination by twisting a disc within its face. True north in Fairbanks is now just 16 degrees west of magnetic north.

Some places, like anywhere near the Mississippi River (which coincidentally runs the same direction as a magnetic-field line), are currently at about zero degrees declination. True north in Anchorage is now 15 degrees west of magnetic north, in Juneau is 18 degrees west, and in Nome is 3 degrees west.

To adjust for that declination, smartphone users need only to open the settings for their digital compass. There will be a switch (the iPhone’s says “Use True North”) that automatically calibrates to wherever you are on the planet.

Since the late 1970s, the ķƵ' Geophysical Institute has provided this column free in cooperation with the UAF research community. Ned Rozell is a science writer for the Geophysical Institute.