I believe the person asking the question, as well as many other people who seek the answer to it, would like an actual response, not just "It does alot awwww man" x2. If you post just to be stupid, don't post.
it does alot awwww man
it does alot awwww man
Some other examples of comets include Comet Halley, Comet Hale-Bopp, and Comet Hyakutake. These comets are known for their brightness, size, and visibility from Earth.
Comet C/2006 P1 McNaught
No. Comet brightness depends on the actual brightness, but also on the distance from the Sun. In 1986, Halley's Comet was not very bright, because it was far from Earth. The previous appearance in 1910 was distinctly brighter, but still wasn't even the brightest comet of the year; the "Great Daylight Comet of 1910" was visible during the day!
Comet Tempel 1, as viewed by the Stardust-NEXT mission Credit. The total brightness of coma and nucleus is 10 units, the coma is 9 units.
major massive destructions
Some other examples of comets include Comet Halley, Comet Hale-Bopp, and Comet Hyakutake. These comets are known for their brightness, size, and visibility from Earth.
it might be the brightness of the comet.
Comet C/2006 P1 McNaught
No. Comet brightness depends on the actual brightness, but also on the distance from the Sun. In 1986, Halley's Comet was not very bright, because it was far from Earth. The previous appearance in 1910 was distinctly brighter, but still wasn't even the brightest comet of the year; the "Great Daylight Comet of 1910" was visible during the day!
Comet Tempel 1, as viewed by the Stardust-NEXT mission Credit. The total brightness of coma and nucleus is 10 units, the coma is 9 units.
major massive destructions
Possible over and or under-exposure. But basically, in English, it effects the brightness/exposure of your image.
There is no reason why there should be ANY bad effects in such a case - unless the comet happens to crash on Earth.
"Apparent magnitude" is the star's brightness after the effects of distance. "Absolute magnitude" is the star's brightness at a standard distance.
Halley's comet appears as a bright ball of light with a long, glowing tail. It is typically visible to the naked eye and has been observed by astronomers for centuries. The length and brightness of its tail can vary depending on its position in its orbit around the sun.
Aliasing Effects: 1.staircase appearance 2.Unequal brightness. 3.picket fence problem
A comet's rate of rotation can vary depending on its size and composition. Some comets can complete one rotation in a few hours, while others may take several days. Rotation rates are typically determined by observing changes in a comet's brightness as it rotates.