What is the position-vs-time graph for a falling object?

In summary, when an object experiences a constant negative force, the curve on its position-time graph will be similar to a logarithmic function starting from the origin. This is because the distance cannot be reduced and the object will continue to move in the opposite direction of the force. However, in the case of free-falling objects, the acceleration due to gravity is always negative and therefore the position-time graph will be a parabola starting from the origin. This means that the object's distance will decrease with time, leading to a curve that is not as steep as the logarithmic function.
  • #1
HeLLz aNgeL
30
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quick question ... if i have constant negative force being applied to an object, what would the curve be on its position-time graph ...

im pretty sure that its got to go upwards since distance can't be reduced, so i was thinking it might be something like the graph of logx, but starting from the origin... is that correct ?

thanks !
 
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  • #2
HeLLz aNgeL said:
quick question ... if i have constant negative force being applied to an object, what would the curve be on its position-time graph ...

im pretty sure that its got to go upwards since distance can't be reduced, so i was thinking it might be something like the graph of logx, but starting from the origin... is that correct ?

thanks !

Do you know of a PHYSICAL EXAMPLE of something experiencing a constant negative force?
Um...
 
  • #3
Depends on what you mean by a negative force.
If the object is stationary and you supply a force in the negative x direction then it will move to the left of the origin.
If you mean the object is moving in a positive direction and you apply a force to slow it down then you will have a curve to the right of the origin.
 
  • #4
robphy said:
Do you know of a PHYSICAL EXAMPLE of something experiencing a constant negative force?
Um...

lol ... didnt think of that... but i guess it would be in the opposite direction

heres the Force-time graph they gave me... what do you guys think will be the position-time graph for this ?
 

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  • #5
bump... anyone ??
 
  • #6
HeLLz aNgeL said:
bump... anyone ??

You still haven't offered a PHYSICAL EXAMPLE... a specific one, from real life.
The "Um..." is a hint that such an example is very easy to find... and that, once you come up with one, the answer to your question might become obvious.
 
  • #7
i was thinking of something along the lines of a car slowing down ...

that would give me the same graph as logx but started from the origin ...
 
  • #8
Closer to 1/x but you're in the right direction.
 
  • #9
Suppose this force had a magnitude of say, um..., i dunno... 9.8 N...
 
  • #10
robphy said:
Suppose this force had a magnitude of say, um..., i dunno... 9.8 N...


o, now I am confused ... why would something in free fall have "negetive force" ? acceleration is positive in that case ...
 
  • #11
Acceleration is a vector.
The "acceleration due to gravity" (or better "the gravitational [vector] field") [tex]\vec g[/tex] is downward pointing vector.
If vertically-upwards is "the direction of increasing y", then acceleration vector in that coordinate system has a negative component.
Thus, [tex]g_y = -9.8{\rm\ m/s^2}[/tex] (or [tex]g_y = -9.8{\rm\ N/kg})[/tex] .

Physically, this means that the vertically-upward component of velocity is always decreasing.

There may be some misconceptions that you have.
To hopefully clear them up:
- the magnitude of the acceleration is always non-negative (i.e. positive or zero).
- the component of the acceleration depends on the choice of axis.. and thus may be either positive or negative, or else zero, depending on that choice of axis.
- with respect to this last point, sometimes one uses --arguably incorrectly-- the words "accelerating" and "decelerating" to describe whether the speed (i.e. the magnitude of the velocity, not [the component of] the velocity itself) is increasing or decreasing... what this really means is that the acceleration vector is either in the same direction as or opposite the velocity vector (i.e., according to the sign of [tex]\vec a \cdot \vec v[/tex]).

In any case, this is a constant force problem... which via Newton's Law yields a constant acceleration problem. So, what is the general form of a constant-acceleration problem? (It's not log or 1/x or anything that complicated.)
 
  • #12
robphy said:
In any case, this is a constant force problem... which via Newton's Law yields a constant acceleration problem. So, what is the general form of a constant-acceleration problem? (It's not log or 1/x or anything that complicated.)

I'm ok with the fact that it is constant acceleration ...

however, i have confusion on the rest... I am guessing this is constant negetive acceleration, or deceleration ...

and if an object is decelerating, the distance it covers will gradually decrease with time, which leads me to my logx graph...

im looking for the position vs. time graph for this ...

is this explanation right ?
 
  • #13
anyone ? its just a x-t graph people !
 
  • #14
HeLLz aNgeL said:
its just a x-t graph people !

That's how I feel.

What is the position-vs-time graph of a free-falling object (the simplest example for your F-vs-t graph)?

If you are unsure, take a ball an throw it upwards, and study its motion.
If that's too fast, try Galileo's experiment:
http://www.pbs.org/wgbh/nova/galileo/expe_inpl_1b.html
 

What is a Position vs. Time graph?

A Position vs. Time graph is a graphical representation of an object's position as it changes over time. It shows the relationship between an object's position and the time it takes to reach that position.

How is a Position vs. Time graph plotted?

A Position vs. Time graph is plotted by marking the object's position on the vertical axis and the corresponding time on the horizontal axis. The data points are then connected with a line to show the object's movement.

What does the slope of a Position vs. Time graph represent?

The slope of a Position vs. Time graph represents the object's velocity, or how fast it is moving. A steeper slope indicates a higher velocity, while a flatter slope indicates a slower velocity.

How do you interpret a straight line on a Position vs. Time graph?

A straight line on a Position vs. Time graph indicates that the object is moving at a constant velocity. The slope of the line represents the magnitude of the velocity, and the direction of the line indicates the direction of the object's movement.

What does a curved line on a Position vs. Time graph indicate?

A curved line on a Position vs. Time graph indicates that the object's velocity is changing over time. The steeper the curve, the faster the object's velocity is changing.

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