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Objects less than 0.08 solar mass are known as brown dwarfs. These star-like objects are not massive enough to sustain nuclear fusion in their cores like main-sequence stars, but they emit some heat and light due to residual energy from their formation. Brown dwarfs fall in between the size of the largest planets and the smallest stars.
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Why is most of the mass of the solar system contained in the sun?
The Sun contains the most mass in the solar system because it formed by accreting most of the gas and dust in the early solar system. The intense gravitational forces in the core of the Sun generate high temperatures and pressures that lead to nuclear fusion, producing energy and maintaining the Sun's structure. Other objects in the solar system, like planets and asteroids, have significantly less mass compared to the Sun.
How does the suns size compare to other objects in the solar system?
The Sun is the largest object in our solar system, comprising about 99.8% of its total mass. By comparison, all the other objects in our solar system, including planets, moons, asteroids, and comets, make up only about 0.2% of the solar system's mass.
What object has the most gravity?
The one with the biggest mass and smallest size has.
How does the sun make up 99 percent of the solar system?
The sun makes up 99 percent of the solar system by mass because it is incredibly massive compared to all the other objects in the solar system combined. Its gravity dominates the system and holds everything else in orbit around it.
What planet attracts other objects through gravity?
All planets have gravity, and will attract other objects. The strength of the attraction is determined by the mass of the planet and the distance to the object.
Where is most of the mass in the solar system and what effect does this have?
Most of the mass of the solar system is in the sun. As a consequence all objects in the solar system orbit the sun.
Do Objects with more mass have a smaller or greater gravitational force than objects with less mass?
Objects with more mass have a greater gravitational force than objects with less mass. Gravity is directly proportional to mass, so the more mass an object has, the stronger its gravitational pull.
Which of these objects has the largest radius 1. a 1.2 solar mass white dwarf 2. a 1.5 solar mass neutron star 3. a 3 solar mass blackhole?
Answer is 1
Why do objects with less mass accelerate at a higher rate?
Objects with less mass have less inertia, so they require less force to accelerate. This means that they can achieve higher acceleration rates compared to objects with more mass, which resist changes in motion due to their greater inertia.
What objects make up 97 percent of the solar system mass?
the sun which takes up 98% of the solar system mass
What part of the solar system exerts a gravitational pull?
Everything with mass ... i.e. ALL the objects of the solar system.
Which solar system objects contain the most mass?
The sun, followed by Jupiter.
Objects with more mass have less inertia?
no more, inertia is proportional to mass
What is the meaning of Solar orbit?
A solar orbit is the path a body takes around the sun.All objects in the solar system have a certain path they follow due to the mass they have, the mass of the sun and their distance from the sun.
Why dont heavy objects fall faster than light ones?
-- Gravity pulls harder on objects with more mass than it does on objects with less mass. -- But objects with more mass need more force on them to accelerate as fast as objects with less mass. -- So it all balances out . . . no matter how much mass an object has, every object on Earth falls with the same acceleration.
Why do objects have different mass?
Objects have different mass due to the amount of matter they contain. Mass is a measure of the total amount of material within an object, which can vary depending on factors such as size, density, and composition. Heavier objects have more mass because they contain more matter, while lighter objects have less mass because they contain less matter.
How does the mass of an object affect the outcome when an unbalanced force acts on it?
When an unbalanced force acts on an object, the mass of the object determines how much it accelerates. Objects with greater mass require more force to accelerate compared to objects with less mass. Therefore, the outcome of the acceleration will be greater for objects with less mass compared to objects with more mass when the same unbalanced force is applied.
