Look up in the sky and you will see.
Polaris is actually quite dim, compared to other stars and planets.
Even at it's dimmest, Mars is brighter than Polaris.
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 doesn't. A lot of stars seem larger and brighter than it. In fact, Polaris is the 49th-brightest star in the sky. To us, it is not a particularly bright star. It is important because it seems to be still as other stars rotate around it.
Polaris A is a white supergiant.
It is better to say that the sun appears brighter because it is closer. Some stars are actually brighter than the sun.
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.
Sagittarius is not a single star but a constellation that includes several bright stars, such as Kaus Australis and Kaus Media, which can appear brighter than Polaris, the North Star. Polaris has a magnitude of about 1.98, while some stars in Sagittarius, like Kaus Australis, have a magnitude of around 1.79, making them appear brighter. Additionally, the overall brightness of a constellation like Sagittarius can make it more visually striking in the night sky compared to the solitary Polaris.
Polaris, also known as the North Star, is approximately 2,500 times brighter than the Sun. This brightness is measured in terms of absolute magnitude, where Polaris has an absolute magnitude of about -3.6, compared to the Sun's absolute magnitude of about +4.8. However, the apparent brightness of stars can vary based on their distance from Earth.
Stars are more brighter than other stars because they have different characteristics that affect their luminosity. Luminosity is the amount of energy that a star emits per unit of time. It depends on the star's size, temperature, and distance from the observer. Some of the factors that make stars more brighter than other stars are: Size: Larger stars have more surface area and can emit more light than smaller stars. Temperature: Hotter stars have higher energy and can emit more light than cooler stars. Distance: Closer stars appear brighter than farther stars because their light has less space to travel and lose intensity.
Blue stars are more luminous than other main sequence stars but not necessarily brighter than giant and supergiant stars.
Quasars A+
No it is not. It is less bright than some, but brighter than others.
The sun appears brighter than other stars because it is much closer to Earth, allowing us to receive a higher amount of its light and energy. Additionally, the sun is a relatively average-sized star, so its brightness is more prominent compared to much larger or smaller stars.