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Would there be a gravitational force acting among the particles of a helium nucleus or the particles of a uranium nucleus?
There is a stronger gravitational force acting among the particles of a uranium nucleus compared to the nucleus of helium. This is because uranium has more mass than helium.
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Would there be a stronger gravitational force acting among the particles of a helium nucleus or the particles of a uranium nucleus?
There is a stronger gravitational force acting among the particles of a uranium nucleus compared to the nucleus of helium. This is because uranium has more mass than helium.
Is there a stronger gravitational force acting on the particles of a hydrogen nucleus or a uranium nucleus?
No gravitational forces are implicated.
Would there be stronger gravitational force acting among the particles of a helium nucleus or a uranium nucleus?
Since there is more mass in the uranium nucleus, there would be a proportionally stronger gravitational force in the uranium nucleus. However, the gravitational force is the weakest force, and it is followed in scale by the weak atomic force, the electromagnetic force, and the strong atomic force, which are many orders of magnitude greater, so, in effect, the gravitational force does not even count in the vicinity of the nucleus.
Would there be a stronger gravitational force acting among the particles of a helium nucleus or the particles of a uranium nucleus Explain?
Neither, the strength of the gravitational force between the subatomic particles inside nuclei is negligible compared to the strength of both the weak nuclear force or the strong nuclear force between the same subatomic particles inside those nuclei.
What is the force that causes particles to sort by density?
The force that causes particles to sort by density is gravity. In a fluid, such as air or water, denser particles will sink while less dense particles will rise due to the gravitational pull acting on them. This process is known as gravity sedimentation.
How does gravitational force acting on the planet compare to the gravitational force acting on the moon due to the planet?
The gravitational force acting on the planet is much greater than the gravitational force acting on the moon due to the planet. This is because the planet has a significantly larger mass than the moon, resulting in a stronger gravitational pull on the moon towards the planet.
Why birds can fly even there is gravitational force acting on it?
That's because the gravitational force isn't the only force acting, in this case.
What are two forces acting on the particles inside a nebula that affect its balance?
Gravitational force pulls particles inward, causing them to collapse, while gas pressure from nuclear fusion in the core generates an outward force to maintain balance.
What determines the size of gravitational force?
The mass of the object the force is acting on, and the gravitational acceleration where the force is acting. F = m*g, where F is the gravitational force, m is the mass of the object and g is the gravitational acceleration (on Earth it is about 9.81ms-2)
How does the size of an object impact the gravitational force acting upon it?
The gravitational force acting on an object is directly proportional to its mass. Therefore, the size of an object, which is related to its volume, can impact the gravitational force acting upon it. Larger objects with greater mass will experience a stronger gravitational force compared to smaller objects with less mass.
What is the gravitational force of earth acting on a body of mass 1 kg is?
The gravitational force of Earth acting on a body of mass 1 kg is approximately 9.81 Newtons.
How does particles of matter behave?
Particles of matter exhibit behavior based on the forces acting upon them, such as gravitational, electromagnetic, and nuclear forces. They can interact with each other by attracting, repelling, and colliding, leading to various types of motions and interactions. The behavior of particles is also influenced by their energy levels, which determine how they move and interact with their surroundings.
