BLOOD MOON eclipses are known to turn the Moon an ominous rusty color but will the Moon turn blood red
A total eclipse of the Moon is sometimes known as a Blood Moon because of the reddish tint the Moon takes on. Blood Moons are a fairly rare event, appearing a little more frequently than twice every three years. Between now and 2025, for instance, astronomers expect only Five Blood Moons to appear.
What is the cause of a Blood Moon eclipse?
Although the term Blood Moon is not scientific, it is associated with an atmospheric effect that occurs during a total lunar eclipse.
During a total eclipse of the Moon, the lunar orb completely enters the planet’s umbra – the direct shadow cast by the Sun’s light.
Although totality can briefly make the Moon disappear, sunlight still indirectly reaches the Moon’s surface.
Sunlight scattered around the edges of the planet’s dusty atmosphere is filtered, leaving reddish wavelengths of light to reach the Moon.
The effect, known as Rayleigh scattering, is similarly responsible for the colour of sunsets and sunrises.
According to the US space agency NASA, if you were to see Earth from the surface of the Moon during a Blood Moon eclipse, the planet would be bathed in a red halo.
NASA said: “The air molecules from Earth’s atmosphere scatter out most of the blue light.
“The remaining light reflects onto the Moon’s surface with a red glow, making the Moon appear red in the night sky.
“The name ‘Blood Moon’ is also sometimes used for a Moon that appears reddish because of dust, smoke or haze in the sky.
“And it can be one of the Full Moons of autumn when the leaves are turning red.”
Will the Moon turn blood-red during the July 4 eclipse?
On the night of July 4 and July 5, the Moon will pass through the Earth’s shadow – but only partially.
The eclipse will coincide with the July Buck Moon and will pass over the United States.
However, this will be a partial penumbral eclipse, meaning only a part of the Moon will darken.
At the peak of the eclipse, less than half of the Moon will be darkened.
But the eclipse will also be penumbral, meaning the Moon will pass through the weaker of Earth’s two shadows.
The Sun’s light casts two shadows behind Earth: the umbra and the penumbra.
The umbra is the direct and darkest shadow that narrows down as it extends into space.
The penumbra is much weaker and more diffuse, extending out into space on either side of the umbra.
Unfortunately, penumbral eclipses can be hard to spot if you do
This news was originally published at express.co.uk