Friction usually reduces the net force and the resulting acceleration.
because your mum is fat.
F net=F applied - F friction
Newton's second law of motion covers this.The net force on an object accelerates the object.
If there is zero net force on an object, the object will not accelerate. (It's velocity will not change.)
Zero net force has no effect on an object's motion whatsoever.
Only if the object does not MOVE. If it moves in any direction, then the NET Force on the Object is NOT ZERO, it is equal to the (Applied Force) - (Friction Force). So the answer to your question is FALSE.
Friction is when two objects touch each other, either smooth or rough friction causes the object to slow down. Also an unbalanced force is when the net force isn't 0 which causes a object to move and cause friction other than a balanced force is when the net force is 0.
Friction acts in the direction opposite to that of the net force acting on the object.
F net=F applied - F friction
If an object doesn't move, then the net force on it is called "zero".
The amount of friction increases.
Newton's second law of motion covers this.The net force on an object accelerates the object.
Yes, rolling friction always reduces the net force to zero.
If there is zero net force on an object, the object will not accelerate. (It's velocity will not change.)
Zero net force has no effect on an object's motion whatsoever.
Only if the object does not MOVE. If it moves in any direction, then the NET Force on the Object is NOT ZERO, it is equal to the (Applied Force) - (Friction Force). So the answer to your question is FALSE.
An object maintains a constant velocity when the net force acting upon that object is zero. Therefore, a force pushing against the object that exactly opposes the force(s) due to friction (in both magnitude and direction) will result in a net force of zero, and the object will maintain a constant speed.
If the object is moving along a horizontal surface with a constant acceleration,then the net vertical force on it is zero, and the net horizontal force on it is(the pushing force) minus (any kinetic friction force where it rubs the surface).The numerical value of that net force is(the acceleration) times (the object's mass).