Strangely worded question. I assume you mean how fast a bike can go. Usually it's more about the rider than the bike, which makes the answer even more muddy. Secondly it's very dependent on what kind of bike and what kind of riding you're talking about, is it on the flat on a fairly normal bike? downhill? alone or in group? for what distance?
An electron can reach zero velocity by experiencing a slowing force, such as friction, that opposes its motion. Alternatively, if an equal and opposite force acts on the electron to stop its movement, it can also reach zero velocity.
It may unless it has an attached parachute
There is no drag in a vacuum to act against the acceleration.
The escape velocity of Mercury is about 4.3 km/s, which is the speed an object must reach to break free from Mercury's gravitational pull and move into space.
Escape velocity is the minimum speed that an object must reach to break free from the gravitational pull of a celestial body. This velocity allows the object to overcome the body's gravitational force and enter into space. The specific value of escape velocity depends on the mass and radius of the celestial body.
One would use Velocity wheels on bicycles. Velocity wheels should be used in conjunction with Velocity brand rims and hubs. One can purchase Velocity products for their bicycle through their website, VelocityUSA.
Once you break free of the Earth's gravity, any velocity greater than zero will eventually reach Saturn, assuming the path is correct to collide with Saturn and no outside variables interfere.
The greatest velocity a falling object can reach is called terminal velocity. Terminal velocity occurs when the force of air resistance on the object matches the force of gravity pulling it down, resulting in a constant speed.
The limit is not so much a distance from Earth, but rather a velocity - called the escape velocity. (roughly 25000 mph) /Brian W
We will reach terminal velocity just before we hit the ground, then the result of our velocity will be terminal.
Yes. - And please don't combine "does" and "is" in the same question that way.
No.Orbital Velocity is the velocity required by a body to achieve a circular orbit around its primary.Escape velocity is the minimum velocity needed to escape a gravitational field
No, raindrops do not reach terminal velocity because they are too small and have a low enough mass that air resistance slows them down before they can reach their maximum falling speed. Terminal velocity is typically reached by larger objects like skydivers or hailstones.
No, an acorn is too small and light to reach its terminal velocity when falling from a tree. Terminal velocity is the maximum constant speed that an object reaches when the drag force equals the force of gravity, and the small size and weight of an acorn mean that it doesn't experience enough air resistance to reach this terminal velocity.
Yes, terminal velocity is the highest velocity that a falling object will reach when the force of air resistance equals the force of gravity acting on the object, causing it to no longer accelerate. At terminal velocity, the object falls at a constant speed without further acceleration.
No, terminal velocity does not depend on the mass of the object. Terminal velocity is the maximum speed an object can reach when the force of gravity is balanced by the force of drag. This means that all objects, regardless of their mass, will eventually reach the same terminal velocity in a given medium.
The velocity a rocket must reach to establish an orbit in space is called orbital velocity. It depends on the altitude of the desired orbit and the mass of the body being orbited. In general, orbital velocity is around 28,000 km/h for low Earth orbit.