Well, it would depend on the part of the bike you are talking about because there are different forces acting. For example.
Spokes: There is tension (tensile strength)
Seat post: Has compression (compressive strength)
handlebar: torsion (torsion strength)
Constant acceleration is the resulting motion of forces acting on an unbalanced bicycle.
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.
y
The forces acting on a moving object include: gravity, friction, air resistance, and any applied forces such as pushing or pulling. These forces can affect the speed, direction, and motion of the object.
The two forces acting to slow down a bicycle going downhill are frictional force, generated between the tires and the road surface, and air resistance, caused by the bike moving through the air. These forces oppose the bike's forward motion and contribute to decreasing its speed.
A bicycle moving at a constant speed in a constant direction has no changes in its velocity or acceleration. It is a balanced state of motion where the bike maintains its speed and direction without any external forces acting on it.
When an object is moving at a constant velocity, the forces acting on it are balanced. This means that the net force on the object is zero, which allows it to continue moving at a constant speed in a straight line. The forces acting on the object may include friction, air resistance, and any applied forces.
Yes, gravity acts on a moving bicycle. Gravity pulls the bicycle and the rider toward the center of the Earth, influencing their motion. This force helps to keep the bicycle in contact with the ground and affects its acceleration and speed.
It will stop moving.
If it is moving.
Maybe, maybe not. Forces don't happen because you're moving ... forces are what cause you to move. If there are no forces acting on you, then you keep moving whichever way you're moving, and your speed or direction don't change. If there are forces acting on you, then your speed and/or direction can change. If the force is in the same direction that you're already moving, you'll move faster (accelerate). If the force is in the direction opposite to the direction you're moving, then your speed will decrease. Does any of this sound surprising ???
The total value of the frictional forces acting on the bike and its rider would be 400 N, which is equal in magnitude to the pedal force applied. This is necessary to balance the pedal force and maintain a constant speed when the bicycle is moving at a constant velocity.