Static friction is a balanced force that acts in the opposite direction of an applied force to prevent relative motion between two surfaces in contact. It reaches its maximum value just before the point when motion is about to occur.
Fluid friction is an unbalanced force because it opposes the motion of an object through a fluid, such as air or water. It creates resistance to the object's movement, which requires additional force to overcome.
it can be both. If its unbalanced the object will move with the force that is greater. Balanced forces have a net force of zero.
An unbalanced force acting on the chair could overcome the static friction between the chair and the floor, causing the chair to start moving. Once the force is stronger than the static friction, the chair will slide across the room due to the unbalanced force propelling it forward.
Pushing a box that doesn't move indicates an unbalanced force. If the force of friction opposing the push is greater than the force you are exerting, the box will not move. In this case, the forces are unbalanced.
If you push a box until it moves, the forces are unbalanced. Your push overcomes the force of friction between the box and the ground, causing the box to accelerate in the direction of your push.
There's no such thing as a balanced force or an unbalanced force.If the entire group of all the forces on an object is unbalanced, then the objectundergoes acceleration, or its "motion changes". If the group of forces on it isbalanced, then its motion doesn't change.
Fluid friction is an unbalanced force because it opposes the motion of an object through a fluid, such as air or water. It creates resistance to the object's movement, which requires additional force to overcome.
it can be both. If its unbalanced the object will move with the force that is greater. Balanced forces have a net force of zero.
The other force being applied, opposing to the object's static friction would both be equal therefore the forces are balancing.
An unbalanced force acting on the chair could overcome the static friction between the chair and the floor, causing the chair to start moving. Once the force is stronger than the static friction, the chair will slide across the room due to the unbalanced force propelling it forward.
The other force being applied, opposing to the object's static friction would both be equal therefore the forces are balancing.
Pushing a box that doesn't move indicates an unbalanced force. If the force of friction opposing the push is greater than the force you are exerting, the box will not move. In this case, the forces are unbalanced.
If you push a box until it moves, the forces are unbalanced. Your push overcomes the force of friction between the box and the ground, causing the box to accelerate in the direction of your push.
Unbalanced Forces will try to create Motion (Kinetic Energy), balanced Forces do not result in Motion. Gravity, Inertia, and Friction will all try to resist the Motion of the object....unless the Force is in the direction of the Gravitational attraction, then the affect is additive.
Static friction
The relationship between static friction and the coefficient of static friction (s) is that static friction is directly proportional to the coefficient of static friction. This means that the force of static friction acting on an object is determined by the coefficient of static friction between the object and the surface it is in contact with.
Yes, look at "what is static friction?" Static friction is also known as starting friction.