Why do the stars and the constellations in the sky appear to change positions throughout the night and throughout the year?(1 point) Responses The location angle of the Earth's tilt relative to the stars and constellations remains the same throughout the year. The location angle of the Earth's tilt relative to the stars and constellations remains the same throughout the year. The Earth’s tilt changes its position relative to the stars and constellations only because the Earth rotates around its axis. The Earth’s tilt changes its position relative to the stars and constellations only because the Earth rotates around its axis. The Earth’s tilt changes its position relative to the stars and constellations as the Earth rotates and orbits. The Earth’s tilt changes its position relative to the stars and constellations as the Earth rotates and orbits. The stars and constellation have tilted and are also moving in space.
The correct answer is: The Earth’s tilt changes its position relative to the stars and constellations as the Earth rotates and orbits.
The Earth's tilt changes its position relative to the stars and constellations as the Earth rotates and orbits. This is why the stars and constellations appear to change positions throughout the night and throughout the year. The Earth rotates around its axis, causing different parts of the sky to be visible at different times of the day. Additionally, the Earth orbits around the Sun, which also contributes to the changing positions of the stars and constellations throughout the year. However, it is important to note that while the Earth's motion plays a significant role in the apparent movement of the stars and constellations, the stars and constellations themselves are also moving within the galaxy.
The correct explanation is "The Earth’s tilt changes its position relative to the stars and constellations only because the Earth rotates around its axis. The Earth’s tilt changes its position relative to the stars and constellations as the Earth rotates and orbits."
The stars and constellations appear to change positions throughout the night and throughout the year because of the Earth's rotation and orbit around the Sun.
Firstly, the Earth rotates on its axis, which takes approximately 24 hours to complete one full rotation. This rotation causes the stars and constellations to appear to move across the sky throughout the night. As the Earth rotates, different parts of the sky come into view while others move out of sight.
Secondly, the Earth also orbits around the Sun, which takes approximately 365 days to complete one revolution. As the Earth moves along its orbit, its position relative to the stars and constellations changes. This is why we see different constellations at different times of the year. For example, during the summer, we see different constellations than in the winter.
It's important to note that while the Earth's rotation and orbit cause the stars and constellations to appear to move, the stars themselves are relatively stationary. They only appear to change positions from our perspective on Earth.
The statement "The stars and constellation have tilted and are also moving in space" is not accurate. While the stars do have their own motions through space, these movements are relatively slow and do not significantly affect their positions as seen from Earth over short periods of time.
In summary, the apparent movement of the stars and constellations is primarily caused by the Earth's rotation on its axis and its orbit around the Sun.