Gravity: Need Help Understanding Its Effects

In summary, the conversation discusses the topic of gravity and whether it increases as you get closer to the core of the planet. It is concluded that gravity will remain the same at the core, as it is the result of mutual attraction between masses. The logic argument presented is not clear and a link to further information is provided, but it does not work.
  • #1
naler62188
1
0
Help! Gravity

im not sure if I am in the right place but, i was wondering if gravity increases when you get near the core of the planet. i have done research and have not found anything conclusive. i need help with this topic. any information or thoughts would be apriciated.
 
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  • #2
No it does not.
Traveling inwards, and assuming uniform density, only the mass of the interior ball will contribute; the effect from the outer shell is zero.
 
  • #3
Gravity is the attraction of masses. You are attracted to the Earth and the Earth is attracted to you.

A logic argument:

1. If you were only attracted to the Earth, then only you would fall toward the earth.

2. If the Earth were only attracted to you, then only the Earth would fall toward you.

3. If only one object were attracted (as in 1 or 2), how could it hold it's place in space while it attracted the other object? What would it be holding on to for it to pull the other object to it? Nothing. Therefore, both objects must attract each other. (This is dependent upon their quantity of mass.)

Since you are attracted to the Earth and the Earth is attracted to you, as you get to the core, you are more and more surrounded by an even mass of Earth pulling you with equal force in all directions, while you pull on it in equal directions.

Gravity will be the same, because gravity occurs because of masses which attract each other. The masses are still there (you and the Earth).
 
  • #4
omin said:
Gravity is the attraction of masses. You are attracted to the Earth and the Earth is attracted to you.

A logic argument:
Sorry, but I can't make any sense out of your "logic" argument. Somehow you have concluded that "gravity will be the same" at the center of the earth. Not true.

Assuming, as arildno stated, a uniform density for the earth, the weight of an object (the net gravitational pull of the Earth on it) will decrease from its usual value at the surface to a value of zero at the center.
 
  • #5
Picture this in your head: You have a point inside a shell. What's the force on the point due to gravity?

Believe it or not, no matter where you put that point inside the circle, the forces sum to 0.

That means that you can consider every part of the Earth outside of where you are as not affecting you at all, only the stuff further in is.

So when you're in the very middle, everything is in a shell around you... (assuming uniform desnity, etc) 0 force!
 
  • #7
The link doesn't work :(
 
  • #8
Since you are attracted to the Earth and the Earth is attracted to you, as you get to the core, you are more and more surrounded by an even mass of Earth pulling you with equal force in all directions, while you pull on it in equal directions.

The effect of the mass "surrounding" you (please be more concise with your language to avoid confusion on the part of students) has no gravitational effect (think spherical symmetry and gauss's law for gravity.)
 

FAQ: Gravity: Need Help Understanding Its Effects

What is gravity?

Gravity is a fundamental force of nature that causes objects with mass to attract each other. It is responsible for keeping planets in orbit around the sun and objects on Earth from floating away into space.

How does gravity affect objects?

The effects of gravity can vary depending on the mass and distance between objects. Generally, gravity pulls objects towards each other and causes them to accelerate towards the center of mass. This is what makes objects fall towards the ground and keeps planets in orbit.

Why do we feel the effects of gravity on Earth?

Earth has a large mass, which creates a strong gravitational force. This force pulls objects towards the center of the planet, making us feel like we are being pushed down towards the ground. The strength of Earth's gravity also keeps our atmosphere in place.

How does gravity affect space travel?

Gravity plays a crucial role in space travel. It is used to launch rockets into space and to guide them to their destination. In space, the gravitational pull of planets and other objects must be taken into account for spacecraft to navigate accurately.

Can gravity be manipulated or controlled?

While we have not yet found a way to manipulate gravity, scientists are constantly studying and researching this force to better understand its effects. Some theories suggest that it may be possible to manipulate gravity in the future, but it is currently not within our capabilities.

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