a teliscope
It is better to say that the sun appears brighter because it is closer. Some stars are actually brighter than the sun.
The brightest stars appear brighter because they are closer to Earth or intrinsically brighter due to their size, temperature, or luminosity compared to other stars. Their brightness makes them stand out more in the night sky.
The sun appears bigger and brighter than other stars because it is much closer to Earth compared to the distant stars. Stars are actually suns, but they look tiny and faint because of their immense distance from us.
Stars appear brighter or dimmer depending on their distance from Earth. The closer a star is, the brighter it appears, while stars that are farther away appear dimmer. Additionally, stars can also vary in brightness due to changes in their own luminosity or if they are being obscured by interstellar dust or gas.
The sun appears brighter than other stars because it is much closer to us than any other star. The intensity of light we receive from a star decreases with distance, so stars farther away appear dimmer. Additionally, the sun is a relatively hot and luminous star compared to many others, further contributing to its brightness.
It is better to say that the sun appears brighter because it is closer. Some stars are actually brighter than the sun.
Because they are closer or actually brighter.
The brightest stars appear brighter because they are closer to Earth or intrinsically brighter due to their size, temperature, or luminosity compared to other stars. Their brightness makes them stand out more in the night sky.
Because it's closer, like the moon
The sun appears bigger and brighter than other stars because it is much closer to Earth compared to the distant stars. Stars are actually suns, but they look tiny and faint because of their immense distance from us.
it is not bigger and brighter, like some people think. It is just closer.
Stars appear brighter or dimmer depending on their distance from Earth. The closer a star is, the brighter it appears, while stars that are farther away appear dimmer. Additionally, stars can also vary in brightness due to changes in their own luminosity or if they are being obscured by interstellar dust or gas.
Stars and suns, collectively, are the same things. The Sun looks brighter just because it is a lot closer, but really it is only a very average star.
The Sun appears brighter than most other stars because it is much closer to Earth. Its proximity makes it seem brighter and more intense. Additionally, the Sun's luminosity is higher than many other stars due to its size and age, contributing to its apparent brightness from our perspective on Earth.
The sun appears brighter than other stars because it is much closer to us than any other star. The intensity of light we receive from a star decreases with distance, so stars farther away appear dimmer. Additionally, the sun is a relatively hot and luminous star compared to many others, further contributing to its brightness.
The north star, otherwise know as Polaris, is brighter than many other stars because it is much closer and perhaps larger than many other stars.
It is a mixture of both. A hotter star will generally appear brighter than a cooler star of the same size. Similarly, a large star will appear brighter than a small one of the same temperature. The brightest stars are generally red supergiants, which are comparatively cool stars, but are so large that their size more than makes up for it. A star's apparent brightness from any given vantage point also depends on its distance. The closer a star is to you, the brighter it will appear.