I just did this science worksheet and its surface tension. Yeah. Hope I helped. Bye.
its surface tension
surface tension
The surface of an object affects the aerodynamic drag: a force which acts against the direction of motion.
A voltage. That acts like a force on electrons (or other charged particles), pushing them away from one end, and attracting them to the other end (of a battery, for example).A voltage. That acts like a force on electrons (or other charged particles), pushing them away from one end, and attracting them to the other end (of a battery, for example).A voltage. That acts like a force on electrons (or other charged particles), pushing them away from one end, and attracting them to the other end (of a battery, for example).A voltage. That acts like a force on electrons (or other charged particles), pushing them away from one end, and attracting them to the other end (of a battery, for example).
Surface tension-Attractive forces cause particles on the surface of a liquid to pull together and resist from being pushed apart. These particles on the surface are pulled toward the center of the liquid and and sideways along the surface. There are no liquid particles above to pull on them. Particles under the surface are pulled in all different directions. Surface tension is the uneven forces acting on the surface particles of a liquid. Surface tension causes a liquid to act like it has a thin film stretched across the surface.
its surface tension
I think it might be electrostatic force! This is the force that acts between the particles!
surface tension
Surface tension. It always tends to acquire minimum surface area thats why water droplets form spherical shape.
surface tension
the normal force
Velocity remains constant if no external force acts.
Drag. This is the force which acts against a runner and is the resultant force of the runner pushing against the particles in the air. Drag is affected by the mass and surface area of the runner. Friction is another force which can affect running.
If that force is not perpendicular to the surface, then there is a component of the force that's parallel to the surface. That component would move fluid around, until there were no longer any force parallel to the surface ... and the whole force would again be perpendicular to the surface.
There is no such force. All forces that act on planets work on smaller particles as well.
The strong force acts on particles with a color charge, such as quarks.
Friction