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Just one, gravity. It pulled it's mass together and gave it it's round chape.
Oh, and the impact of the asteroids poc-marking it's surface, which also has something to do with gravity most of the time. Otherwise it's inertia I suppose, though it's an outdated idea in physics.
What else can I help you with?
What three forces give the Earth its shape?
1.Sun's gravitational force due which it revolves around the Sun. 2.Earth's gravitational force which keep its Rotation/wobble around it's own axis. 3.Interplanetary and natural satellites gravitational forces which keeps the motion of universe in round shape as earth.
How does the sun keep its size and shape?
The sun maintains its size and shape through a balance of forces. Gravity pulls inward, trying to collapse it, while nuclear fusion at its core generates energy that pushes outward. These two opposing forces create an equilibrium that sustains the sun's size and shape.
What are two forces that act on the sun?
Two forces that act on the sun are gravity, which holds the sun's mass together and keeps it in a spherical shape, and nuclear fusion, which generates energy by converting hydrogen into helium in the sun's core.
What two forces are balancing which give the sun it's spherical shape?
The sun's spherical shape is primarily maintained by two balancing forces: gravitational force and gas pressure. Gravity pulls the sun's mass inward, while the intense pressure generated by nuclear fusion reactions in its core pushes outward. This equilibrium between the inward pull of gravity and the outward push of gas pressure results in a stable, spherical structure.
What is the suns shape?
what is the shape of the sun? the shape of the sun is a 3d shape and it is a sphere.
How do you know the sun is round?
Scientific observations show that the sun appears round due to its gravitational forces pulling it into a spherical shape. This shape is maintained by the balance between the internal pressure caused by nuclear fusion and the gravitational forces pulling inward. Additionally, space missions and high-powered telescopes have provided more evidence of the sun's round shape.
How does gravity affect planetary motion?
The mutual gravitational forces that attract a planet and the sun to each other are responsible for keeping the planet in orbit around the sun.
The Sun the earth and remaining planets are roughly in shape?
the sun earth and the remaining planets are roughly spherical in shape.
Why is the sun formed like it is?
Because that's how physics works. If you asked a more specific question, we could probably give a more specific answer, but I'm really tired of trying to guess what these incredibly vague questions mean.
What bets explains why the sun maintains its size and shape?
The sun maintains its size and shape due to a balance between gravitational forces and the pressure generated by nuclear fusion in its core. Gravitational forces pull the sun's mass inward, while the energy produced from nuclear fusion reactions converts hydrogen into helium, creating outward pressure that counteracts gravity. This equilibrium, known as hydrostatic equilibrium, ensures that the sun remains stable in size and shape over long periods. If either force were to change significantly, the sun would undergo structural changes, such as swelling into a red giant or collapsing into a denser state.
What isThe shape of the path of a planet or asteroid around the sun Called?
The shape of the path of a planet or asteroid around the Sun is called an orbit. Most orbits are elliptical in shape, as described by Kepler's First Law of Planetary Motion. This means that the distance between the celestial body and the Sun varies throughout the orbit. The specific characteristics of an orbit are determined by gravitational forces and the initial velocity of the object.
The imaginary line between a planet and the sun?
The imaginary line between a planet and the sun is called the planet's orbit. This orbit is the path that a planet follows as it revolves around the sun, due to gravitational forces. The shape and size of the orbit is determined by the planet's velocity and distance from the sun.
