Constant velocity or at constant acceleration

In summary, it is more likely for humans to walk at a constant velocity rather than a constant acceleration. This is because maintaining a truly constant velocity would require 100% accuracy, which is difficult for humans to achieve. On a larger scale, constant velocity is a more reasonable answer, while on a smaller scale, both velocity and acceleration are constantly changing. Additionally, it is impossible for humans to maintain a constant acceleration due to physical limitations. Therefore, walking at a constant velocity is more feasible for humans.
  • #1
dg_5021
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Are we more likely to be able to walk at constant velocity or at constant acceleration?
 
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  • #2
dg_5021 said:
Are we more likely to be able to walk at constant velocity or at constant acceleration?

Walking with a constant velocity would be very difficult over a period of even a few seconds. You have to take into account that a truely constant velocity would require 100% accuracy. That is, with no rounding of time. There's a difference between walking 1 m/s and walking 1.000324 m/s, and this isn't true constant velocity. I don't think humans have the accuracy needed to walk at a constant velocity.

z-component
 
  • #3
Like wise constant acceleration would be impossible to maintain for any but very short periods of time. If you consider your velocity over significantly large distances you will probably find that constant velocity is a more reasonable answer.

On a small scale, like a singe stride of course your velocity is constantly changing, but so is your acceleration, so you cannot call it constant anything on that scale. If you look at anything over 2 or 3 strides a constant velocity is much more likely then a constant acceleration. Even when you are running you only accelerate for the first few strides.

I am sure someone will claim me incorrect because of some Olympic sprinter, just broaden your definition of "a few"!
 
  • #4
well it would be impossible to accelarate constantly since we would have limits on how fast we can go, so it would sort of look like a square root graph, and we could only maintain a high speed for so long before we would get tired. however if you look at it this way, you measure the distance traveled, say 1 Km, and it took you one hour to get there, you would then be traveling at one km per hour, then you would pick random points, many of them, and measure your velocity at that point, and if it's 1km/hour most of the time then you are maintainting a constant velocity.

on a diffrent note, say you are counting half notes, and every half note you put one foot infront of the other, this would come very close to getting you a constant velocity, either way its' more pheasable to keep going the same speed than to keep accelerating at the same rate.
 

What is constant velocity?

Constant velocity is the motion of an object in a straight line at the same speed without changing direction.

What is constant acceleration?

Constant acceleration is the change in velocity of an object over time, where the velocity increases or decreases by the same amount in each unit of time.

What is the difference between constant velocity and constant acceleration?

The main difference is that constant velocity means the object is moving at a steady speed in a straight line, while constant acceleration means the object is changing its speed or direction over time.

What causes an object to have constant velocity?

An object will have constant velocity if there is no external force acting on it to change its speed or direction.

How is constant velocity or constant acceleration calculated?

Constant velocity is calculated by dividing the distance traveled by the time taken, while constant acceleration is calculated by dividing the change in velocity by the time taken. Both are measured in meters per second squared (m/s²).

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