Static Friction.
"Just as the second law regarding friction states that surface area does not determine friction (but rather, weight determines surface area), the third law holds that friction is independent of the speed at which an object is moving along a surface-provided that speed is not zero. The reason for this provision is that an object with no speed (that is, one standing perfectly still) is subject to the most powerful form of friction, static friction.
The latter is the friction that an object at rest must overcome to be set in motion; however, this should not be confused with inertia, which is relatively easy to overcome through the use of force. Inertia, in fact, is far less complicated than static friction, involving only mass rather than weight. Nor is inertia affected by the composition of the materials touching one another."
You must overcome static friction to get an object to start moving. Static friction is the force that resists the initial motion of an object at rest.
Static friction must be overcome to start movement of a stationary object. This is the friction that exists between two surfaces that are not moving relative to each other. Once the static friction is overcome, the object can start moving.
No, static friction is the force that must be overcome to start an object moving from rest. Kinetic friction comes into play once the object is already in motion, opposing its movement.
Friction. Specifically, static friction. After the object begins to move, it will still be necessary to overcome rolling or sliding friction to keep it in motion.
Static friction is the friction that prevents an object from moving when a force is applied. It occurs between stationary surfaces and must be overcome by an applied force in order for the object to start moving.
You must overcome static friction to get an object to start moving. Static friction is the force that resists the initial motion of an object at rest.
Static friction must be overcome to start movement of a stationary object. This is the friction that exists between two surfaces that are not moving relative to each other. Once the static friction is overcome, the object can start moving.
No, static friction is the force that must be overcome to start an object moving from rest. Kinetic friction comes into play once the object is already in motion, opposing its movement.
Friction. Specifically, static friction. After the object begins to move, it will still be necessary to overcome rolling or sliding friction to keep it in motion.
Static friction is the friction that prevents an object from moving when a force is applied. It occurs between stationary surfaces and must be overcome by an applied force in order for the object to start moving.
I have to guess either gravity or friction.If by that you mean a force that opposes the start of motion, then your force would be static friction.Static friction only occurs before an object starts moving, as opposed to kinetic friction which occurs when the objects is moving or sliding. The equation for static friction is: Ff = (coefficient of static friction) * FNInertia
The coefficient of static friction is higher than the coefficient of kinetic (or sliding) friction because it takes more force to overcome the initial static friction and start an object moving than to keep it moving once it is already in motion. Static friction is present when an object is at rest, while kinetic friction occurs when an object is moving.
static
True -It's "False"!
True -It's "False"!
Static friction is typically stronger than sliding friction. Static friction occurs when an object is at rest and needs to overcome the initial force required to start moving, whereas sliding friction occurs once the object is already in motion.
Static friction typically has more friction than kinetic friction. Static friction occurs when an object is not moving, and the friction force is at its maximum to prevent the object from moving. Once the object overcomes static friction and starts moving, the friction force decreases to kinetic friction.