false
TRUEFriction is the reason more force is needed to push an object across a rough surface.
Static Friction
Static Friction
a force which is applied to an object by a person or another object a force which is applied to an object by a person or another object
Five different examples of pushing forces: 1. Pushing a box across the room 2. Sliding a drink down a bar 3. "Pushing" the computer mouse across the mousepad 4. A center pushing a defensive lineman down the field 5. Pushing a car that is in neutral
TRUEFriction is the reason more force is needed to push an object across a rough surface.
the arrangement of something across Earth's surface
Fine sawdust occurs when wood is sandpapered.
Static Friction
Static Friction
a force which is applied to an object by a person or another object a force which is applied to an object by a person or another object
Tension occurs in objects when something is pushing or pulling against something that is pulling the opposite way. Like a seagull gliding through the air or a book getting slid across carpet.
If the bag is sliding across the countertop (i.e., the same surface of the bag is always in contact with the counter), then no. Rolling friction is only relevant when the surface of an object in contact with the surface it moves across always changes.
A shoes sole stops friction. Meaning it stops you from slipping over on different tipes of surfaces. A shoe can have friction when maybe sliding it across a carpet, its alot harder than pushing it across a smoother surface. So shoes can have friction whenever he cant be moved/slid along a surface. Hope i helped and am correct :)
Five different examples of pushing forces: 1. Pushing a box across the room 2. Sliding a drink down a bar 3. "Pushing" the computer mouse across the mousepad 4. A center pushing a defensive lineman down the field 5. Pushing a car that is in neutral
Push a box across a surface with a downward angle because gravity is helping.
A conductor is something that allows for the movement of tiny charge carrying particles called electrons across the surface. The specific elements that make up wood and the way that its molecules are arranged don't allow for ease of movement of electrons across its surface.