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Yes if the moon fell on earth it would definetly produce a noticable magnetic field.

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Objects falling to the center of the earth due to a force known as gravity is a example of?

Objects falling to the center of the Earth due to gravity is an example of gravitational force at work. Gravity is a fundamental force of nature that causes objects with mass to be pulled towards each other. In this case, the Earth's mass creates a gravitational pull that causes objects to accelerate towards its center.


How do you use gravitational force in a sentence?

Gravitational force is the natural phenomenon that causes objects with mass to be attracted to one another. For example, the gravitational force between the Earth and the Moon is what keeps the Moon in orbit around the Earth.


Explain how mass and the distance of an object from other objects affect its gravitational force?

The gravitational force between two objects is directly proportional to the mass of the objects. The greater the mass of the objects, the stronger the gravitational force between them. Additionally, the gravitational force between two objects is inversely proportional to the square of the distance between their centers. As the distance between objects increases, the gravitational force between them decreases.


The acceleration of falling objects is caused by the force of?

Assuming that there are no other forces on the object, the force that causes the acceleration of a falling object is the gravitational force (attractive force that exists between two masses). In problems, this assumption is usually used.However, in Force = mass*acceleration it is important to remember it is net acceleration and net force. Thus, for an object falling in real life the acceleration is caused by the gravitational force and a drag force which results from the object moving through the air. You have to take into account all the forces on the object.


Describe what Galileo learned about falling objects that lead to an understanding of gravitational pull?

Galileo's experiments showed that all objects fall with the same acceleration regardless of their mass. This discovery led him to understand that objects fall towards Earth due to gravity, a force that attracts objects towards each other. Galileo's observations laid the foundation for the concept of gravitational pull.

Related Questions

What is the force that pulls falling objects to earth?

Gravitational force


What is the difference between electromagnetic force and gravitational force in terms of their effects on objects?

Electromagnetic force is a force between charged particles that can attract or repel objects, while gravitational force is a force between objects with mass that always attracts them towards each other. Electromagnetic force is much stronger than gravitational force, but only acts over short distances, while gravitational force is weaker but acts over long distances.


What is the Forces of attraction between objects?

Gravitational force.


Do objects have to touch for a force to be involved?

No, objects do not have to touch for a force to be involved. Forces, such as gravitational or electromagnetic forces, can act between objects even when they are not in direct contact.


Why is gravitational force called weak force?

Gravitational force is called weak compared to other fundamental forces like the electromagnetic force because its effects are much weaker over relatively short distances. For example, compared to electromagnetic forces, gravitational forces between objects are very small unless one of the objects is extremely massive. This is why we do not typically notice gravitational forces acting between everyday objects.


Give you example of gravitational force?

An example of gravitational force is the force that pulls objects towards the center of the Earth. This force is responsible for objects falling to the ground when dropped.


What is average force of gravity that acts on each object when the objects are falling?

Gravitational potential energy


What would enable us to see black holes?

Black holes might be seen by their Hawking radiation, but that radiation is expected to be extremely weak. It is more likely that a black hole would be seen:By matter falling into it. Before reaching the event horizon, the tremendous acceleration will produce electromagnetic waves (X-rays, for example). By observing the movement of other objects around the black hole.By gravitational lensing. All of these depend on the gravity of the black hole.Black holes might be seen by their Hawking radiation, but that radiation is expected to be extremely weak. It is more likely that a black hole would be seen:By matter falling into it. Before reaching the event horizon, the tremendous acceleration will produce electromagnetic waves (X-rays, for example).By observing the movement of other objects around the black hole.By gravitational lensing. All of these depend on the gravity of the black hole.Black holes might be seen by their Hawking radiation, but that radiation is expected to be extremely weak. It is more likely that a black hole would be seen:By matter falling into it. Before reaching the event horizon, the tremendous acceleration will produce electromagnetic waves (X-rays, for example).By observing the movement of other objects around the black hole.By gravitational lensing. All of these depend on the gravity of the black hole.Black holes might be seen by their Hawking radiation, but that radiation is expected to be extremely weak. It is more likely that a black hole would be seen:By matter falling into it. Before reaching the event horizon, the tremendous acceleration will produce electromagnetic waves (X-rays, for example).By observing the movement of other objects around the black hole.By gravitational lensing. All of these depend on the gravity of the black hole.


What is the hypothesis of falling objects?

The hypothesis of falling objects is that all objects, regardless of their weight, fall at the same rate in a vacuum. This is known as the concept of gravitational acceleration, where objects accelerate towards the Earth at a constant rate of 9.8 m/s^2.


What are the two non contact forces?

The two non-contact forces are gravitational force and electromagnetic force. Gravitational force acts between objects with mass, while electromagnetic force acts between charged particles.


Objects falling to the center of the earth due to a force known as gravity is a example of?

Objects falling to the center of the Earth due to gravity is an example of gravitational force at work. Gravity is a fundamental force of nature that causes objects with mass to be pulled towards each other. In this case, the Earth's mass creates a gravitational pull that causes objects to accelerate towards its center.


What increases when the gravitational forces increase?

the gravitational forces.Answer:As mass increases the gravitational force increases. Also, as the nearness of the objects increases the gravitational force increases, but this is usually thought of as the distance between the objects decreasing