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.
Planets appear brighter than stars because they reflect more sunlight and have larger apparent sizes in the night sky compared to distant stars. Stars emit light due to nuclear fusion in their cores, while planets reflect light from the Sun, making them appear brighter to us on Earth.
The Sun appears larger than other stars because it is much closer to Earth compared to other stars. This proximity makes the Sun appear larger and brighter in our sky. In reality, the Sun is an average-sized star compared to the vast range of sizes of other stars in the universe.
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.
When there is little light like during night time, we can see the stars more clearly. This makes them look brighter and hence, larger.
The sun is the closest star to Earth, which is why it appears larger and brighter in our sky compared to other stars. Its proximity allows for more direct sunlight to reach us, making it appear more prominent.
Because they are closer or actually brighter.
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.
distance from the sun and the age of the star
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.
Some stars appear bigger than others due to their intrinsic luminosity, distance from Earth, and atmospheric effects. Brighter stars or those closer to Earth may appear larger in the sky, while atmospheric distortion can also make stars seem larger than they actually are.
The brightness of a star is primarily determined by its size, temperature, and distance from Earth. Larger, hotter stars tend to appear brighter, while stars that are closer to us also appear brighter due to their proximity. Other factors such as the star's age and its stage in the stellar lifecycle can also influence its brightness.
No. Larger stars are generally brighter. Blue giants are the brightest stars while red dwarves are the faintest.