No. A star with no visible parallax is far away.
No, if you can measure no parallax, the star is far away - further than a certain distance.
Venus
The North Star, also known as Polaris, appears not to move in the night sky because it is located very close to the Earth's axis of rotation. This alignment makes it seem as though Polaris remains fixed while the other stars appear to rotate around it as the Earth spins on its axis.
Their mass will have a great effect on their development. Also, being very close to another star can affect their later development, since matter can be passed from one star to another. Binary stars are actually very common.Their mass will have a great effect on their development. Also, being very close to another star can affect their later development, since matter can be passed from one star to another. Binary stars are actually very common.Their mass will have a great effect on their development. Also, being very close to another star can affect their later development, since matter can be passed from one star to another. Binary stars are actually very common.Their mass will have a great effect on their development. Also, being very close to another star can affect their later development, since matter can be passed from one star to another. Binary stars are actually very common.
The Earth's North Pole points towards the star Polaris, also known as the North Star. It is located very close to the Earth's rotational axis, making it a useful reference point for navigation and identifying direction in the northern hemisphere.
i ise sun is a small or ordary star just very close to earth
No, if you can measure no parallax, the star is far away - further than a certain distance.
Because the earth's north pole happens to point [very close] to Polaris.
Because it is a bright star and it is close to earth (or should I say CLOSER to earth than any other star). It is also very big and dense.
That would be the Sun .
The 3 factors that affect a star's brightness as viewed from earth, are: The star's age, distance from earth, and actual magnitude (scale a star's brightness is measured in).
The less a star appears to move, the farther it is from Earth. Stars that do not appear to move are very far away from Earth, making their apparent motion negligible from our perspective due to the vast distances involved in space.
25 degrees...very close to earth's 23.5 degrees.
It is not "a" star it is two stars. They may be "optical" binaries which means that from our line of sight form Earth they APPEAR close together (but are not really) OR They may be a binary star "system", in which case the two stars are gravitationally orbiting one another. The pair may be very close or quite widely separated.
Polaris is considered to be a very sanctification star is because it is closer to the north celestial pole. This is the brightest star in the earth's sky.
That is Sirius. Its "apparent magnitude" is minus1.5 approximately. Sirius is the brightest star in the sky for us on Earth, but it's not the most luminous star in "absolute magnitude". The main reason that it is so bright is just that it is very close to us.
Their distance from our point of view is what makes the sun different from a star. What makes a star different from Earth? Almost everything. Stars are made up of gasses, while the earth is made up of rock. A star is just a very, very, very big H-Bomb.