So what would decrease the gravitational pull between the Sun and Earth
The gravitational pull between the Sun and Earth can be decreased through various factors:
1. Increasing the distance: Gravitational force decreases with the square of the distance between two objects. Therefore, by increasing the distance between the Sun and Earth, the gravitational pull would decrease. However, since Earth's orbit is determined by the gravitational force of the Sun, altering the orbit significantly is not feasible.
2. Decreasing mass: Both the Sun and Earth contribute to the gravitational force between them. If either the mass of the Sun or Earth is reduced, the gravitational pull between them would decrease. However, altering the mass of celestial bodies is not practically possible.
3. Interaction with other celestial bodies: The gravitational pull between the Sun and Earth can be influenced by the presence of other massive celestial bodies. For instance, if a large planet, such as Jupiter, were to come close to Earth, the gravitational interaction between Jupiter, the Sun, and Earth could disturb the gravitational pull between the Sun and Earth.
It is important to note that the gravitational force between the Sun and Earth is an essential factor that keeps Earth in orbit around the Sun. Any significant changes to this force could have dramatic consequences for the stability of our solar system.