The applied forces on the bicycle would be balanced. The force applied by the rider in pedaling is equal and opposite to the forces of friction and air resistance acting on the bicycle. This results in a net force of zero, allowing the bicycle to move with constant velocity.
An object at rest or moving at a constant velocity experiences a net force of zero. This can happen when the forces acting on the object are balanced, such as when the force of gravity is equal to the force pushing up from a surface.
Forces are unbalanced when the net force is not equal to zero. This causes objects to accelerate in the direction of the greater force.
When the net force on an object is not zero, the object will accelerate in the direction of the net force. The acceleration of the object is directly proportional to the net force acting on it, as described by Newton's second law (F=ma).
The net force acting on an object at rest is zero. This means that all the forces acting on the object are balanced and there is no overall force causing it to move.
Inertia will not be affected when "net" or "net force" is zero.
Net force is defined as the overall force acting on an object. When a cat sleeps on a table, the net force on it is zero. When a body is at rest the net force acting on the body is zero.
When an objects net force is zero, its acceleration is zero. No force , no acceleration.
Zero net force is when the forces are balanced and there is no acceleration.
When forces are balanced, the net force is zero.
The applied forces on the bicycle would be balanced. The force applied by the rider in pedaling is equal and opposite to the forces of friction and air resistance acting on the bicycle. This results in a net force of zero, allowing the bicycle to move with constant velocity.
net force
0; zero net force
Zero
If the net force is not zero then the object will move in the direction of the greater force.
0. An object in equilibrium has constant velocity, which makes its acceleration 0. Since net force=mass times acceleration, this would make the net force zero. Note that there could be multiple forces acting on the object, but since it is in equilibrium they would have to be equal and opposite in direction, to cancel all of the forces out. This would make the net force zero.
Zero