The speed of the eclipse will be around 5 minutes after the sun crosses the celestial equator. The time of totality (when the eclipse will appear completely white) will be 5 minutes before midnight.
That means you’ll be able to see the Earth and the moon together, but you’ll need to either be a telescope or have an electronic eye-level of at least six or seven degrees of magnification to see it in the full glow of the sun and moon. The fastest time to see it will be when it’s completely bright and completely dark at the same time.
That’s the same time it takes for the sun to cross the celestial equator. It’s also a bit of a coincidence that the sun is also crossing the celestial equator the same time that the Earth is crossing the equator.
As the Earth’s axis spins around the sun, the Earth’s axis is also moving around the sun. As a result, the Earth’s axis is in a constant state of motion. In other words, when the Earth’s axis spins around the sun, the Earth’s axis is also in a constant state of motion.
So what you’re seeing in the above video is the Earths axis moving relative to the sun. So the Earths axis is slowing down. As a result, the Earths axis is speeding up. This is also why the Earths axis is moving at a faster rate than the sun is spinning around the Earths axis. This is called a “relative motion” in physics.
It is not only the Earths axis that is slowing down, the Earths axis is also rotating faster. This is called a non-uniform motion. So when the Earths axis spins around the sun, the Earths axis is also rotating faster. This is because the Earths axis is not moving uniformly around the sun. Instead, the Earths axis is rotating around the sun at a faster rate.
It’s only a matter of time before scientists figure out why the Earths axis is slowly rotating around the sun. In the meantime, it’s becoming more evident that the solar system is experiencing a “relative motion.” The same effects that cause the Earths axis to slow down also cause the sun to spin faster as the sun moves around the Earths axis.
This all seems to be happening at the same time as the world is getting closer to a total eclipse. This is why NASA has declared a “global eclipse of the moon” of the Earths axis, when the sun is partially covered by the moon. The effect on the Earths axis, as a result of this eclipse will be even more dramatic.
NASA has also declared a total solar eclipse of the sun. If the eclipse goes that far, we might see some of the same effects as a partial eclipse, where the sun is covered by the moon, but they are a lot less powerful. The total eclipse will cause a lot more changes in the Earths magnetic field, resulting in the Earths magnetic poles tilting to the north and south.
This is all good news, but the best thing is that there will still be the same amount of time between totality and the return. That’s because the Earths rotation is slowing down, so the sun will be less visible. This means that totality will last longer, so that the sun will be less visible. So if you’re looking to get your best shots as the sun moves through the sky, this is a good time to take advantage of this special time of year.