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If two objects have different masses does the more massive object pull with a great force?
Yes, the more massive object will exert a greater force of gravity on another object compared to a less massive one, as gravitational force is directly proportional to the product of the masses of the two objects involved.
What objects will the earth exert a greater gravitational pull than on a bicycle?
The Earth will exert a greater gravitational pull on objects with greater mass, such as cars, buildings, and mountains, compared to a bicycle. This is because the force of gravity between two objects is directly proportional to the mass of the objects, so the more massive an object is, the stronger the gravitational pull it experiences.
What is the attractive force that all objects exert on one another?
There are four fundamental forces in our universe that dictate how matter and energy interact. One of the forces, gravity, causes anything with mass, i.e. anything made of atoms, to attract other massive objects. Gravity is the weakest of the four forces and is one of the most difficult to explain.
Do Objects of any size exert a gravitational force.?
If the object having some mass then for sure it exert a gravitational force.The more the mass the more will be gravity.
Does the force of gravity increase decrease or stay the same if the object it is acting on is more massive?
If the product of the two masses increases, then the gravitational force in both directions between them increases.
If two objects have different masses does the more massive object pull with a great force?
Yes, the more massive object will exert a greater force of gravity on another object compared to a less massive one, as gravitational force is directly proportional to the product of the masses of the two objects involved.
What objects will the earth exert a greater gravitational pull than on a bicycle?
The Earth will exert a greater gravitational pull on objects with greater mass, such as cars, buildings, and mountains, compared to a bicycle. This is because the force of gravity between two objects is directly proportional to the mass of the objects, so the more massive an object is, the stronger the gravitational pull it experiences.
What is the attractive force that all objects exert on one another?
There are four fundamental forces in our universe that dictate how matter and energy interact. One of the forces, gravity, causes anything with mass, i.e. anything made of atoms, to attract other massive objects. Gravity is the weakest of the four forces and is one of the most difficult to explain.
What was Aristotle's belief regarding falling objects with different masses?
More massive objects fall faster than less massive objects.
Why does earth exert a greater gravitational force on you than other objects do?
Earth exerts a greater gravitational force on you than other objects do because of its massive size and proximity to you. The force of gravity between two objects depends on their masses and the distance between them, so Earth's larger mass and closer proximity result in a stronger gravitational pull on you.
Why can the sun exert its gravitation on all the planets?
Because it is very massive and therefore its gravity is the strongest of all objects in the solar system, reaching right out to very far out dwarf planets like Eris and Sedna.
Why can the sun exert the gravitation on all the planets?
Because it is very massive and therefore its gravity is the strongest of all objects in the solar system, reaching right out to very far out dwarf planets like Eris and Sedna.
Do Objects of any size exert a gravitational force.?
If the object having some mass then for sure it exert a gravitational force.The more the mass the more will be gravity.
Is it true that you need to be in contact with a mass for us to be affected by its gravitational pull?
No, you do not need to be in direct contact with a massive object for it to exert a gravitational pull on you. Gravity is a fundamental force that acts over a distance, meaning that any two objects with mass will exert a gravitational force on each other, regardless of physical contact.
Does the force of gravity increase decrease or stay the same if the object it is acting on is more massive?
If the product of the two masses increases, then the gravitational force in both directions between them increases.
Newton's third law states that objects exert?
Force and Opposite
The way in which objects exert forces on each other is described by?
Force
