-- Gravity ... attraction between any two masses
-- Magnetic force ... attraction or repulsion between a magnet and magnetic materials,
or between conductors carrying electric current
-- Electrostatic force ... attraction or repulsion between electric charges, like the
balloon and the wall, the comb and the bits of tissue, the socks and the shirts
in the dryer, etc.
-- Strong nuclear force ... attraction between particles in the nucleus of the atom;
only works over very short distances ... like inside the nucleus of an atom.
Usually there is gravity. There may be other forces involved too, depending on the situation.Usually there is gravity. There may be other forces involved too, depending on the situation.Usually there is gravity. There may be other forces involved too, depending on the situation.Usually there is gravity. There may be other forces involved too, depending on the situation.
Yes, gravity does have an effect on a magnet, but it is typically very small compared to other forces acting on the magnet, such as magnetic forces. Gravity affects the entire mass of the magnet, pulling it towards the Earth, but the magnet's magnetic properties are typically more noticeable in everyday interactions.
No, gravity is a fundamental force in nature. It is responsible for the attraction between objects with mass. Pseudo forces, on the other hand, are apparent forces that arise in non-inertial reference frames.
Electrons are affected by gravity in the same way as any other object with mass. Gravity causes electrons to be pulled towards the center of the Earth, just like it does with all other objects. However, the effect of gravity on electrons is very small compared to other forces that act on them, such as electromagnetic forces.
Gravity is the weakest of all the interactive forces and cannot be easily described by mathematics in the same way as electromagnetism and the strong and weak nuclear forces. Currently, physicists cannot fully explain why gravity is so incredibly weak in comparison to other forces.
Usually there is gravity. There may be other forces involved too, depending on the situation.Usually there is gravity. There may be other forces involved too, depending on the situation.Usually there is gravity. There may be other forces involved too, depending on the situation.Usually there is gravity. There may be other forces involved too, depending on the situation.
No. Compared with the other basic forces, gravity is remarkably weak.
no but other forces are gravity and magnitism
Forces in nature (weak, electromagnetic, strong are the other forces)
Gravity is the strongest force in the universe. Not because other forces are not more powerful, but because gravity reaches throughout the universe. Volcanoes really have very little effect on gravity.
Yes, gravity does have an effect on a magnet, but it is typically very small compared to other forces acting on the magnet, such as magnetic forces. Gravity affects the entire mass of the magnet, pulling it towards the Earth, but the magnet's magnetic properties are typically more noticeable in everyday interactions.
More mass = more force of gravity.
Ultimately gravity overcomes all other forces.
No, gravity is a fundamental force in nature. It is responsible for the attraction between objects with mass. Pseudo forces, on the other hand, are apparent forces that arise in non-inertial reference frames.
Electrons are affected by gravity in the same way as any other object with mass. Gravity causes electrons to be pulled towards the center of the Earth, just like it does with all other objects. However, the effect of gravity on electrons is very small compared to other forces that act on them, such as electromagnetic forces.
Simple. Gravity! The planets are dragged in by the gravity of the sun.
Gravity is the weakest of all the interactive forces and cannot be easily described by mathematics in the same way as electromagnetism and the strong and weak nuclear forces. Currently, physicists cannot fully explain why gravity is so incredibly weak in comparison to other forces.