Gravity is an attractive force that pulls objects towards each other. It is not a repelling force.
Gravity is strictly an attractive force, meaning it always pulls objects towards each other. It differs from magnetism, which can be both attractive and repulsive depending on the orientation of the magnetic fields.
No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.
Yes, the force of gravity between two objects is indeed attractive. However, it depends on the mass of both objects, not just the larger one. Gravitational force is directly proportional to the product of the masses of the two objects and inversely proportional to the square of the distance between them.
Comparable with what? You can compare the electrical force with other forces. For example, if you compare it with gravity, it turns out that both are inverse-square laws. While gravity acts on ANY mass, the electrical force only acts on electrically charged objects. And while gravity is always attractive, the electrical force can be both attractive and repulsive.
Similarities: inverse square law for strength of force both r central forces both are conservative forces both follow principle of superposition Differences gravity attracts electric force electric force can change direction electrostatic force depends on interviening medium
Gravity is strictly an attractive force, meaning it always pulls objects towards each other. It differs from magnetism, which can be both attractive and repulsive depending on the orientation of the magnetic fields.
No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.No. Magnetism and gravity are quite different forces. For starters, gravity acts on all masses, and the amount of force depends only on the masses and the distance - and it is always attractive. The magnetic force depends on the material, and it can be both attractive and repulsive, depending on the orientation.
Gravity and electromagnetism can be compared and contrasted. Both are fundamental forces in nature, but gravity is a long-range force that acts on all masses, while electromagnetism is a combination of electric and magnetic forces that act on charged particles at both short and long ranges. Additionally, gravity is always attractive and weak in comparison to electromagnetism, which can be attractive or repulsive and is much stronger.
Gravity between two objects will form a mutually attractive force on both objects, proportional to the product of both masses. Both objects will accelerate toward each other. The force on both objects is the same magnitude, but in opposite directions (it is toward the other object). The amount of acceleration (call it a) is equal to the force divided by the mass of that object. So if one object is very massive (like the Earth, for example) its acceleration will be very small.
Similarities: Both obey an inverse-square law, and, it seems, extend to an arbitrarily far distance.Differences: Gravity is always attractive; gravity is much weaker for individual particles, but because it is always attractive, the overall effect at long distances, and for large masses, is predominant.Similarities: Both obey an inverse-square law, and, it seems, extend to an arbitrarily far distance.Differences: Gravity is always attractive; gravity is much weaker for individual particles, but because it is always attractive, the overall effect at long distances, and for large masses, is predominant.Similarities: Both obey an inverse-square law, and, it seems, extend to an arbitrarily far distance.Differences: Gravity is always attractive; gravity is much weaker for individual particles, but because it is always attractive, the overall effect at long distances, and for large masses, is predominant.Similarities: Both obey an inverse-square law, and, it seems, extend to an arbitrarily far distance.Differences: Gravity is always attractive; gravity is much weaker for individual particles, but because it is always attractive, the overall effect at long distances, and for large masses, is predominant.
Yes, the force of gravity between two objects is indeed attractive. However, it depends on the mass of both objects, not just the larger one. Gravitational force is directly proportional to the product of the masses of the two objects and inversely proportional to the square of the distance between them.
Comparable with what? You can compare the electrical force with other forces. For example, if you compare it with gravity, it turns out that both are inverse-square laws. While gravity acts on ANY mass, the electrical force only acts on electrically charged objects. And while gravity is always attractive, the electrical force can be both attractive and repulsive.
The electromagnetic force is carried by photons and acts between charged particles, such as electrons and protons. It is a long-range force, unlike the weak and strong forces, and it can both attract and repel particles. The electromagnetic force is also distinct from gravity, which is a much weaker force acting over longer distances.
Similarities: inverse square law for strength of force both r central forces both are conservative forces both follow principle of superposition Differences gravity attracts electric force electric force can change direction electrostatic force depends on interviening medium
isnt there three other non contact forces? strong, weak interaction and electostatic forces? strong differs from gravity by only working one nucleon distance apart whereas gravity works at any distance. Electrostatic force is a repulsive force whereas gravity and strong are an attractive force. And weak force is just beta plus or beta minus decay! electostatic and gravitiational are both long range strong and weak interactions are nuclear size!
the relationship between buoyant force and gravity is that both definitions have to do with floatation . gravity and buoyant both keep you your object afloat so that it does not submerge
-- It always attracts, never repels. -- The gravitational force is always equal on both of the masses that attract each other.