Why is the Sun at a static position and planets revolve around it??
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The Sun appears static while the planets revolve around it due to the principles of gravity and inertia as explained by Newton's laws of motion and Kepler's laws of planetary motion. Here’s a detailed explanation: 1. The Sun's Gravity Holds the Planets in Orbit: The Sun has an enormous mass, makingRead more
The Sun appears static while the planets revolve around it due to the principles of gravity and inertia as explained by Newton’s laws of motion and Kepler’s laws of planetary motion. Here’s a detailed explanation:
1. The Sun’s Gravity Holds the Planets in Orbit:
The Sun has an enormous mass, making it the most massive object in the solar system.
Due to its mass, the Sun exerts a strong gravitational pull on all the planets, keeping them in orbit around it.
The force of gravity decreases with distance, so planets farther from the Sun experience a weaker gravitational pull.
2. The Balance of Gravitational Force and Inertia:
Planets are in constant motion due to their inertia (an object’s tendency to keep moving in a straight line unless acted upon by an external force).
The Sun’s gravity continuously pulls the planets towards itself, preventing them from flying off into space.
This balance between the Sun’s gravitational pull and the planets’ inertia creates a stable orbit, causing the planets to revolve around the Sun in elliptical paths.
3. Why the Sun Appears Static:
The Sun is not completely static—it also moves slightly due to the gravitational pull of the planets, particularly massive ones like Jupiter and Saturn. However, this movement is minimal compared to the planets’ orbits.
The center of mass of the solar system (the barycenter) is very close to the Sun due to its massive size, making it seem stationary relative to the planets.
4. Role of Conservation of Angular Momentum:
The solar system was formed from a rotating cloud of gas and dust. As the cloud collapsed under gravity, the conservation of angular momentum caused the planets to form in orbits around the Sun.
This rotation and conservation of angular momentum are why planets continue to revolve around the Sun instead of falling into it.
5. The Heliocentric Model:
This understanding is based on the heliocentric model, proposed by Nicolaus Copernicus and later supported by Galileo and Kepler, which places the Sun at the center of the solar system.
In summary, the combination of the Sun’s gravitational force, the planets’ inertia, and the principles of angular momentum explains why the Sun remains at a relatively static position while planets revolve around it.
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