Gravity as explained by Einstein is related to an objects mass. All objects are attracted to each other. An object in space makes a well in the fabric like the way a ball sits on water. Around it is its displacement well determined by its' mass. The larger the mass the deeper the well. A black hole (Swartzchild Singularity) makes a very deep inescapable hole. Magnetic attraction and repulsion is a measurable field effect. It can be produced in electromagnets, by magnetizing certain metals and found naturally. It does not have the same effect as gravity. It has the ability to attract and repulse. Gravity only attracts and it is very difficult to measure. Gravity can be simulated by centripetal motion. Like going into a hard turn. Magnetism seems to have little or no effect on nonmetallic objects. Very little effect even on a lot of metals. Some more than others. Gravity attracts all things by their mass, not their makeup. As demonstrated on the moon a Bowling ball and a feather fall at the same rate seeking the center of the moon.
False. Magnetic force and gravitational force are two distinct types of forces. Gravitational force is the force of attraction between objects due to their mass, while magnetic force is the force between magnets or between a magnet and a magnetic material.
Gravitational force and magnetic force are two examples of forces that do not require physical contact between objects to act on each other. Gravitational force is the attraction between masses, while magnetic force is the interaction between magnetic fields.
Electrical force is the force that exists between charged particles, either attracting or repelling based on their charges. Gravitational force is the force of attraction between two masses, such as between the Earth and objects on its surface. Magnetic force is the force exerted between magnets or between a magnetic field and a moving charged particle.
Gravitational force and magnetic force both act at a distance without direct contact. They both follow an inverse square law, meaning the strength decreases with distance squared. However, gravitational force is always attractive between masses, while magnetic force can be attractive or repulsive between charges.
Gravitational force is the force of attraction that exists between two masses due to their mass, while attraction force is a more general term that can refer to any force that pulls objects towards each other, such as electrostatic force or magnetic force. Gravitational force specifically refers to the force that acts between masses due to gravity.
False. Magnetic force and gravitational force are two distinct types of forces. Gravitational force is the force of attraction between objects due to their mass, while magnetic force is the force between magnets or between a magnet and a magnetic material.
Gravitational force and magnetic force are two examples of forces that do not require physical contact between objects to act on each other. Gravitational force is the attraction between masses, while magnetic force is the interaction between magnetic fields.
Electrical force is the force that exists between charged particles, either attracting or repelling based on their charges. Gravitational force is the force of attraction between two masses, such as between the Earth and objects on its surface. Magnetic force is the force exerted between magnets or between a magnetic field and a moving charged particle.
Gravitational force and magnetic force both act at a distance without direct contact. They both follow an inverse square law, meaning the strength decreases with distance squared. However, gravitational force is always attractive between masses, while magnetic force can be attractive or repulsive between charges.
Gravitational force is the force of attraction that exists between two masses due to their mass, while attraction force is a more general term that can refer to any force that pulls objects towards each other, such as electrostatic force or magnetic force. Gravitational force specifically refers to the force that acts between masses due to gravity.
Yes, gravitational force is the attraction between two masses due to their mass alone, while magnetic force is the force exerted between magnets or moving charges due to their magnetic properties. Gravitational force follows an inverse square law, while magnetic force follows more complex laws described by Maxwell's equations.
At what height in kilometers above the surface of the Earth is there a 4% difference between the approximate gravitational force mg and the actual gravitational force on an object
In certain situations, yes, the magnetic force can be stronger than the gravitational force. For example, on a small scale such as with magnets or charged particles, magnetic forces can dominate over gravitational forces. However, on a large scale such as with planets or stars, gravitational force is typically much stronger than magnetic force.
Magnetic force is the force between magnets or moving charges, while electric force is the force between electric charges. Magnetic force acts on moving charges perpendicular to both the velocity of the charge and the magnetic field, while electric force acts along the line connecting the charges.
Contact and mechanical forces involve direct physical contact between objects, such as pushing or pulling. Gravitational and magnetic forces act at a distance without the need for physical contact, with gravity being a force between masses and magnetism a force between magnetic objects.
Gravitational force is the weakest universal force. It is significantly weaker than the electromagnetic and strong nuclear forces.
Electric force is the force between charged particles, while magnetic force is the force between magnetic poles or moving charges. Electric force acts on stationary charges, while magnetic force acts on moving charges. Both forces are fundamental in nature and play important roles in the interactions of particles and objects.