The force caused by tiny collisions known as microelds on surfaces that are stuck together is called adhesion. This force occurs due to the molecular interactions between the surfaces, causing them to stick together.
The force caused by tiny collisions and micro welds that hold surfaces together is called adhesion force. It is the attraction between molecules on different surfaces that causes them to stick together.
The force caused by tiny collisions called microwelds on surfaces stuck together is known as adhesion force. These microwelds form when the surfaces come into close contact, creating intermolecular attractive forces that hold the surfaces together.
The force caused by tiny collisions called microwelds on surfaces that are stuck together is called friction. Friction is the resistance to motion when two surfaces are in contact with each other. Microwelds are small points of contact where atoms on the surfaces bond together, creating resistance to movement.
The point at which two surfaces come together is called a junction or an intersection. This can create a seam or a joint, depending on how the surfaces are connected.
When two surfaces are rubbed together, friction occurs, which generates heat and wear on the surfaces. This can lead to the production of small particles, called abrasion, on the surfaces being rubbed. If the surfaces are rough or have irregularities, they can interlock, causing the friction to increase and potentially creating damage.
The force caused by tiny collisions and micro welds that hold surfaces together is called adhesion force. It is the attraction between molecules on different surfaces that causes them to stick together.
The force caused by tiny collisions called microwelds on surfaces stuck together is known as adhesion force. These microwelds form when the surfaces come into close contact, creating intermolecular attractive forces that hold the surfaces together.
The force caused by tiny collisions called microwelds on surfaces that are stuck together is called friction. Friction is the resistance to motion when two surfaces are in contact with each other. Microwelds are small points of contact where atoms on the surfaces bond together, creating resistance to movement.
friction
The point at which two surfaces come together is called a junction or an intersection. This can create a seam or a joint, depending on how the surfaces are connected.
When two surfaces are rubbed together, friction occurs, which generates heat and wear on the surfaces. This can lead to the production of small particles, called abrasion, on the surfaces being rubbed. If the surfaces are rough or have irregularities, they can interlock, causing the friction to increase and potentially creating damage.
We see tectonic plates pushing together in what is called a convergent plate boundary.
fricton
Friction between two seemingly smooth surfaces is caused by microscopic irregularities on the surfaces that interlock when they come into contact. These interlocked points experience resistance to sliding motion, which results in the force of friction. Additionally, factors such as surface contamination, adhesion, and material properties can also contribute to friction between smooth surfaces.
When you rub two things together, the force produced is called friction. Friction opposes the motion of the objects and is caused by the interactions between their surfaces. The amount of friction depends on factors such as the materials of the objects, the force pushing them together, and the roughness of their surfaces.
The force when two materials rub together is called friction. Friction is a resistive force that opposes the relative motion or tendency of motion between two surfaces in contact. The magnitude of the frictional force depends on factors such as the nature of the surfaces and the force pressing them together.
The point where two surfaces meet is called an "intersection" or a "junction."