Because they're very close to the sun and thus reflect a lot of the sunlight. It also helps that they are very close to us in terms of the other stars in the sky.
Stars are intrinsically brighter than planets, typically. Planets (in general) shine by reflected starlight, whereas stars produce their own light. The exception are black dwarfs, which are burned out stars, and neutron stars which do not emit much light in the visible spectrum. Some planets glow a bit in the infrared from their own internal heat as well. As seen from earth Venus outshines any star, and Jupiter rivals Sirius, Arcturus, and Vega in brightness. These stars are all brighter than Mars and Saturn. The reason the planets appear brighter than some stars is because they are very close, while the stars are very, very far away.
'Appear' would become 'appeared' in the past tense so the sentence would simply be 'some stars appeared to be brighter than others'.
They are a lot closer than the stars. The nearest star, Alpha Proxima is 4 light years away. The planets are at most a few light hours away. Although they don't emit light, several of them have cloudy or sandy surfaces, making them highly reflective of sunlight. somtimes stars are brighter like the sun thats a star
Stars appear brighter depending on their size, temperature, and distance from Earth. Larger and hotter stars emit more light, making them appear brighter. Additionally, stars that are closer to Earth will appear brighter than those that are farther away.
No. Stars are much larger than planets or moons. Stars are suns, some larger and brighter than our own.
Stars are intrinsically brighter than planets, typically. Planets (in general) shine by reflected starlight, whereas stars produce their own light. The exception are black dwarfs, which are burned out stars, and neutron stars which do not emit much light in the visible spectrum. Some planets glow a bit in the infrared from their own internal heat as well. As seen from earth Venus outshines any star, and Jupiter rivals Sirius, Arcturus, and Vega in brightness. These stars are all brighter than Mars and Saturn. The reason the planets appear brighter than some stars is because they are very close, while the stars are very, very far away.
Some planets seem brighter - not all of them. Planets are quite near to us, as compared to the stars.
Because they are closer or actually brighter.
There is no "why" because they don't.
'Appear' would become 'appeared' in the past tense so the sentence would simply be 'some stars appeared to be brighter than others'.
Well,planets do not have any light of their own so they are definitely not brighter and yes there may be some stars smaller than the planets but most of the stars are bigger than the planets . But on the whole the Space is not that much explored so that we can get any cumulative answer.
They are a lot closer than the stars. The nearest star, Alpha Proxima is 4 light years away. The planets are at most a few light hours away. Although they don't emit light, several of them have cloudy or sandy surfaces, making them highly reflective of sunlight. somtimes stars are brighter like the sun thats a star
Yes, much bigger. The stars appear tiny because they are unimaginably far away. The stars we see at night are suns, some bigger and brighter than out son, some with their own planets orbiting them.
Stars appear brighter depending on their size, temperature, and distance from Earth. Larger and hotter stars emit more light, making them appear brighter. Additionally, stars that are closer to Earth will appear brighter than those that are farther away.
No. Stars are much larger than planets or moons. Stars are suns, some larger and brighter than our own.
-- The planets you can see with your naked eye are generally brighter than a typical star. -- They also twinkle less than the stars do. -- Planets appear as small disks even in binoculars or small telescopes, but stars never do. -- From one night to the next, or certainly from one week to the next, the patterns formed by stars don't change, but planets move through those patterns.
The bright lights next to the moon could be planets such as Venus or Jupiter, or even stars. Planets tend to appear brighter than stars and have a steady, non-twinkling light. The specific location and time of observation can help identify which celestial bodies are next to the moon.