June 10, 2021 Eclipse

On Thursday, June 10, 2021, people across the northern hemisphere will have the chance to experience an annular or partial eclipse of the Sun.

Showing the annular eclipse, the Moon moves in front of the Sun, blocking it, except for a ring around the edges. This creates a ring of fire look.
An annular solar eclipse on May 20, 2012.
Credits: Dale Cruikshank

 

 

 

A solar eclipse happens when the Moon moves between the Sun and Earth, casting a shadow on Earth, fully or partially blocking the Sun’s light in some areas. During an annular eclipse, the Moon is far enough away from Earth that the Moon appears smaller than the Sun in the sky. Since the Moon does not block the entire view of the Sun, it will look like a dark disk on top of a larger, bright disk. This creates what looks like a ring of fire around the Moon. People in parts of Canada, Greenland, and northern Russia will experience the annular eclipse.

 

In some places, viewers won’t get to see this ring around the Moon. They’ll instead experience a partial solar eclipse. This happens when the Sun, Moon, and Earth are not exactly lined up. The Sun will appear to have a dark shadow on only part of its surface. Viewers in parts of the eastern United States and northern Alaska will see a partial solar eclipse on June 10, along with much of Canada and parts of the Caribbean, Europe, Asia, and northern Africa.

 

In the United States, the partial eclipse will be visible along parts of the Southeast, Northeast, Midwest, and in Northern Alaska. In many of these locations, the eclipse will occur before, during, and shortly after sunrise. This means that viewers will need to get a clear view of the horizon during sunrise in order to see the eclipse.

 

To see exactly where the eclipse will be visible, check out our animations and maps. You can learn more about these maps from NASA’s Scientific Visualization Studio.

A visualization of the Moon’s shadow during the June 10, 2021 annular solar eclipse showing the antumbra (black oval), penumbra (concentric shaded ovals), and path of annularity (red). Images of the Sun show its appearance in a number of locations, each oriented to the local horizon.
Credits: NASA’s Scientific Visualization Studio/Ernie Wright
An illustration of Earth with the shadow of the eclipse path. The shadow is split into how close to full annularity the eclipse reaches, including 80%, 60%, 40%, 20%, and 0%. The shadow crosses North America, Africa, Europe, and Asia.
This map of the eclipse path shows where the June 10, 2021, annular and partial solar eclipse will occur. Click to enlarge.
Credits: NASA’s Scientific Visualization Studio/Ernie Wright

 

 

To learn which times the eclipse may be visible in certain areas, you can click anywhere on the map here. (Note that the maximum obscuration and maximum eclipse timing noted on this map may occur before sunrise in many locations.)

Download this fact sheet to learn more about eclipses, how to view them safely, and fun eclipse activities:
Solar Eclipse Fact Sheet

 

Live Stream

Weather permitting, a view of the partial solar eclipse will be streamed on YouTube and on nasa.gov/live. This stream is courtesy of Luc Boulard of the Royal Astronomical Society of Canada Sudbury Centre.

The stream will start at 5 a.m. EDT. Since sunrise isn’t until 5:47 a.m. EDT, the stream will be dark until then. The eclipse will be nearly at maximum (~90 percent coverage) at sunrise, so viewers can watch the Sun reappear as the Moon moves out of the way. This stream will show the partial, not annular, solar eclipse.

How to Safely Watch an Annular or Partial Eclipse
It is never safe to look directly at the Sun’s rays, even if the Sun is partly or mostly obscured. When watching a partial solar eclipse or annular solar eclipse, you must wear solar viewing or eclipse glasses throughout the entire eclipse if you want to face the Sun. Solar viewing or eclipses glasses are NOT regular sunglasses; regular sunglasses are not safe for viewing the Sun.

If you don’t have solar viewing or eclipse glasses, you can use an alternate indirect method, such as a pinhole projector. Pinhole projectors shouldn’t be used to look directly at the Sun, but instead to project sunlight onto a surface. Read a how-to guide for creating a pinhole viewer.

 

Stay safe and still enjoy the Sun’s stellar shows by creating your very own pinhole viewer with a few simple supplies.
Credits: NASA’s Goddard Space Flight Center

For 3D view

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Source 1: NASA

Source 2: Facebook

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