As Isaac newton explained some centuries ago, gravitational force is directly proportional to the product of the masses involved, and is inversely proportional to the square of the distance between the centers of the masses.
Gravitational forces depend on the masses of the objects involved and the distance between them. The force of gravity increases with the mass of the objects and decreases with the distance between them.
Electric forces and gravitational forces are similar in that they both involve the attraction or repulsion between objects. However, they differ in the types of objects they act upon and the strength of the forces. Electric forces act on charged particles, while gravitational forces act on objects with mass. Additionally, electric forces are much stronger than gravitational forces, making them more significant in the interactions between charged particles.
A wormhole, if observed from a distance, would likely appear as a distorted region of space, possibly resembling a swirling tunnel or a bending of light and matter. Its appearance would be influenced by the gravitational forces and curvature of spacetime around it.
Indirect forces examples include gravitational forces, electromagnetic forces, and nuclear forces. These forces act over a distance without physical contact between the objects involved.
Electric, magnetic, and gravitational forces are all fundamental forces of nature that act over a distance between objects. They all follow the inverse square law, meaning the force weakens as the distance between objects increases. Additionally, they are all vector forces, meaning they have both magnitude and direction.
The forces are gravitational forces. They become weaker with distance and mass reduction
Gravitational forces depend on the masses of the objects involved and the distance between them. The force of gravity increases with the mass of the objects and decreases with the distance between them.
Electric forces and gravitational forces are similar in that they both involve the attraction or repulsion between objects. However, they differ in the types of objects they act upon and the strength of the forces. Electric forces act on charged particles, while gravitational forces act on objects with mass. Additionally, electric forces are much stronger than gravitational forces, making them more significant in the interactions between charged particles.
Between the Earth and the Moon, for example, there is no net electrical force. So the weaker gravitational force, which is only attracts, remains as the predominant force between these bodies.
A wormhole, if observed from a distance, would likely appear as a distorted region of space, possibly resembling a swirling tunnel or a bending of light and matter. Its appearance would be influenced by the gravitational forces and curvature of spacetime around it.
-- distance -- equal mutual forces of gravitational attraction
Gravitational force of the moon is 1/6th the gravitational force of the Earth. The larger the object, the greater gravitational force it will have.
Indirect forces examples include gravitational forces, electromagnetic forces, and nuclear forces. These forces act over a distance without physical contact between the objects involved.
Electric, magnetic, and gravitational forces are all fundamental forces of nature that act over a distance between objects. They all follow the inverse square law, meaning the force weakens as the distance between objects increases. Additionally, they are all vector forces, meaning they have both magnitude and direction.
In case of electric force there are both repulsive and attractive. But in case of gravitational force, only attractive force. Electrical force between electric charges. Gravitational force between masses. In electric force we use a constant known as permittivity of the medium. But in gravitational force a universal constant known as Gravitational constant is used. Electrical force is very much greater than gravitational force.
Italian scientist Galileo Galilei (1564 - 1642).
Both electrical and gravitational forces follow an inverse square law, where the force decreases with the square of the distance between the objects. However, electrical forces can be attractive or repulsive depending on the charges of the objects involved, while gravitational forces are always attractive and only dependent on the masses of the objects.