Two forces that can act over a distance are gravitational force, which is the force of attraction between two objects with mass, and electromagnetic force, which is a fundamental force responsible for interactions between charged particles.
yes. push your hand against the wall... electric forces are happening at the atomic level of your hand and the wall but all the molecules and atoms in your hand never touch a single molecule or atom of the wall. if they did actually "touch" then you hand would start to go through to wall.
Yes, it is possible for a force to act between two objects even when they are not touching. This type of force is called a non-contact force, such as gravitational, magnetic, or electrostatic forces. These forces can act over a distance and do not require direct contact between the objects.
No. When two forces act in the same direction, they can be added together. It is only when two identical forces act in opposite directions that they cancel each other out.
The two forces that act on a kite are lift, generated by the wind pushing against the kite's surface and gravity, which pulls the kite downward toward the ground.
Two forces that act on an object in water are buoyant force, which pushes the object upwards, and gravity, which pulls the object downwards.
Some forces act at a distance and thus do not require direct contact between objects. Examples include gravitational and electromagnetic forces. These forces can influence objects without physical contact due to their field-like nature.
No, two objects do not necessarily have to touch in order for a force to act between them. Forces such as gravitational, magnetic, and electric forces can act over a distance without requiring physical contact between the objects.
Push and Pull I'll say 'contact' and 'non-contact'. (I hope nobody is going to come along and say 'balanced' and 'unbalanced', because that's just plain wrong.)
yes. push your hand against the wall... electric forces are happening at the atomic level of your hand and the wall but all the molecules and atoms in your hand never touch a single molecule or atom of the wall. if they did actually "touch" then you hand would start to go through to wall.
Yes, it is possible for a force to act between two objects even when they are not touching. This type of force is called a non-contact force, such as gravitational, magnetic, or electrostatic forces. These forces can act over a distance and do not require direct contact between the objects.
motion and distance
light and water
vector sum of the two forces.
No. When two forces act in the same direction, they can be added together. It is only when two identical forces act in opposite directions that they cancel each other out.
The two forces that act on a kite are lift, generated by the wind pushing against the kite's surface and gravity, which pulls the kite downward toward the ground.
Two forces that act on an object in water are buoyant force, which pushes the object upwards, and gravity, which pulls the object downwards.
To calculate the net force when multiple forces act in the same direction, simply add the magnitudes of the individual forces together. The direction of the net force remains the same as the original forces.