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Are the forces acting on a cyclist decelerating balanced?
No, the forces acting on a cyclist when decelerating are not balanced. The force of friction between the tires and the road, as well as air resistance, act to slow down the cyclist. The net force in the direction opposite to the movement causes deceleration.
What are two forces that are trying to make the cyclist slow down?
Air resistance (also known as drag) is a force that opposes the motion of the cyclist as they move through the air. Rolling resistance is another force that occurs as the tires of the bike come in contact with the road surface, resulting in friction that slows down the cyclist.
Why does the cyclist have to keep pedalling to maintain their constant velocity?
The cyclist must keep pedaling to maintain their constant velocity because they are overcoming forces like air resistance and friction. These forces act in the opposite direction of motion, so the cyclist needs to continuously apply force through pedaling to balance them out and keep moving at a steady pace. If they stop pedaling, these forces will eventually slow them down.
How can you make the object speed up or slow down?
Making an object speed up or slow down always requires a force.-- To make the object speed up, apply a force to it in the same directionthat it's moving.-- To make it slow down, apply a force to it in the opposite direction.
When energy is in motion what makes it slow down?
Energy in motion can slow down due to factors like friction, air resistance, or other external forces acting on the object. These forces work against the motion of the object, converting its kinetic energy into other forms such as heat or sound, thereby causing the object to slow down.
Are the forces acting on a cyclist decelerating balanced?
No, the forces acting on a cyclist when decelerating are not balanced. The force of friction between the tires and the road, as well as air resistance, act to slow down the cyclist. The net force in the direction opposite to the movement causes deceleration.
What are two forces that are trying to make the cyclist slow down?
Air resistance (also known as drag) is a force that opposes the motion of the cyclist as they move through the air. Rolling resistance is another force that occurs as the tires of the bike come in contact with the road surface, resulting in friction that slows down the cyclist.
Why does the cyclist have to keep pedalling to maintain their constant velocity?
The cyclist must keep pedaling to maintain their constant velocity because they are overcoming forces like air resistance and friction. These forces act in the opposite direction of motion, so the cyclist needs to continuously apply force through pedaling to balance them out and keep moving at a steady pace. If they stop pedaling, these forces will eventually slow them down.
What two forces slow rocket down when out of fuel?
inertia and friction are the two forces that slow down a rocket
What happend to forces when thing speed up or slow down?
Nothing happens to the forces. The forces are what makes the thing speed up or slow down.
What forces slow a ball down?
Friction.
How can you make the object speed up or slow down?
Making an object speed up or slow down always requires a force.-- To make the object speed up, apply a force to it in the same directionthat it's moving.-- To make it slow down, apply a force to it in the opposite direction.
What forces slow you down while sliding on snow?
FRICTION
Which forces slow down a car as it drives along?
air resistance
What should you do when passing a bicyclist on the road?
When passing a bicyclist on the road, you should leave at least three feet of space between your vehicle and the cyclist. Slow down and wait for a safe opportunity to pass, then signal and pass the cyclist at a safe distance. Be patient and cautious to ensure the safety of both the cyclist and yourself.
What forces slow down and stop an object moving trough air?
friction
When energy is in motion what makes it slow down?
Energy in motion can slow down due to factors like friction, air resistance, or other external forces acting on the object. These forces work against the motion of the object, converting its kinetic energy into other forms such as heat or sound, thereby causing the object to slow down.
