Is acceleration related to distance traveled?

In summary, the distance traveled is directly proportional to the square of the time, but I don't understand why it would give me the distance if I squared the time and multiplied the total distance covered after 1 second.
  • #1
debjit625
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Hi this is my first post...
May be I am doing something wrong...
I was thinking about a unit acceleration of 1ms-2 ,let an object be accelerating 1ms-2 and at rest the object's velocity was 0ms-1 and after 5 seconds its velocity was 5ms-1 ,so it will cover a distance of 15 meters after 5 seconds ,am I right ?

If I am right ,then I don't understand the relation given "The total distance traveled is directly proportional to the square of the time",it suppose to give me the distance (15m) if I would squared the time and multiply the total distance covered after 1 second.
I got this relation from this site
http://www.physicsclassroom.com/Class/1DKin/U1L1e.cfm

I think I am doing something wrong...

Thanks
 
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  • #2
debjit625 said:
Hi this is my first post...
May be I am doing something wrong...
I was thinking about a unit acceleration of 1ms-2 ,let an object be accelerating 1ms-2 and at rest the object's velocity was 0ms-1 and after 5 seconds its velocity was 5ms-1 ,so it will cover a distance of 15 meters after 5 seconds ,am I right ?
No, not right. How did you determine that distance?

If I am right ,then I don't understand the relation given "The total distance traveled is directly proportional to the square of the time",it suppose to give me the distance (15m) if I would squared the time and multiply the total distance covered after 1 second.
That will work. But what's the distance covered after 1 second? :wink:

(Hint: Use the average velocity over an interval to calculate the distance covered.)
 
  • #3
After 1 second it covered 1 meter as the velocity was 1 m/s and after 2 seconds it covered 3 meters as on the second interval of time the velocity was 2 m/s and so on...

Code:
Time          Avg Velocity          Distance Traveled During Time Interval          Total Distance Traveled 
0s - 1s       1m/s                    1m                                                          1m
1s - 2s       2m/s                    2m                                                          3m 
2s - 3s       3m/s                    3m                                                          6m 
3s - 4s       4m/s                    4m                                                          10m
4s - 5s       5m/s                    5m                                                          15m

I still don't understand...
 
  • #4
debjit625 said:
After 1 second it covered 1 meter as the velocity was 1 m/s and after 2 seconds it covered 3 meters as on the second interval of time the velocity was 2 m/s and so on...
Not quite.

Remember it starts from 0 m/s. After 1 second its speed is 1 m/s, so the average speed during that first second is only 0.5 m/s. Thus it only covers 0.5 meters in the first second.

From 1 second to 2 seconds, the speed goes from 1 m/s to 2 m/s, giving an average speed of 1.5 m/s during that interval. And so on.
 
  • #5
Well I feel dumb...may be I am...
But still I don't get it,how can you say 0.5 m/s...

A car is at rest initial velocity 0 m/s ,after one second it covers a distance of 1 meter so the velocity should be 1 m/s during that 1 second interval ... as velocity = displacement/time .Now after the first 1 sec interval , it covers another 2 meters during the next interval of 1 sec ,so its velocity should be 2 m/s during the next interval...

Where I am wrong ?

And Doc Al thanks for your reply
 
  • #6
debjit625 said:
Where I am wrong ?

It's clearly not doing 1m/s throughout the first second and it's not doing 0m/s either. The average speed in that interval will be the average: 0.5m/s (if the acceleration is uniform). So it will cover 0.5m in the first second.
Having re-read your post, I can see you have put your cart before your horse. You need to deal with the speeds before you can calculate the distances.
 
  • #7
That's where your problem lies. If a body starts at rest and undergoes constant acceleration of 1 m/s^2, the velocity of 1 m/s is reached only after 1 sec. has elapsed. Remember, the average velocity over a certain interval is the [(initial velocity) + (final velocity)] / 2, and since the body starts at rest, initial velocity = 0 by definition.

Take a closer look at this interval of 1 sec. What is the velocity after 0.5 sec has elapsed? After 0.25 sec has elapsed? The velocity of the body at 0.25 sec. or 0.5 sec. is clearly not 1 m/s. The velocity of the body is continuously increasing from 0 m/s until it reaches 1 m/s at t = 1 sec.

During this interval of 1 sec., the body does not travel 1 meter. It cannot unless the velocity remained constant at 1 m/s for the entire interval. Looking at the average velocity, which is (0 + 1)/2 = 0.5 m/s, the distance traveled during the first second of acceleration is 0.5 m.
 
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  • #8
Well forget everything, let say a car is at rest ,it starts moving after one second it covers 1 meter ,after 2 seconds it covers 3 meter ,after 3 seconds it covers 6 meter.

I want to know what is the acceleration,velocity in each time interval of the car...

I will go crazy very soon...
 
  • #9
debjit625 said:
Well forget everything, let say a car is at rest ,it starts moving after one second it covers 1 meter ,after 2 seconds it covers 3 meter ,after 3 seconds it covers 6 meter.

I want to know what is the acceleration,velocity in each time interval of the car...

I will go crazy very soon...

If you want to do it that way round then the answer is, of course, different. If it is accelerating uniformly from rest and covers 1m in the first second then its average speed is 1m/s. Its speed after 1s will be 2m/s (for that average speed to apply) and its acceleration will be 2m/s^2.

Remember that, in the initial stages, it is going very slowly and has to 'make up for it' in the later stages.
 
  • #10
Well I could understand what you guys are trying to say ,a body from rest just can't take a speed of 1 m/s only after 1 sec it will come to that speed,in the first interval I am doing it wrong... but what about this example in this site
http://www.physicsclassroom.com/Class/1DKin/U1L1e.cfm
You see the table under the section "The Meaning of Constant Acceleration"
I know it says about a free falling object,lets say my car was moving with a speed of 1 m/s rather than being at rest and plug in the rest... what I am doing different from that example

@sophiecentaur
If you want to do it that way round then the answer is, of course, different. If it is accelerating uniformly from rest and covers 1m in the first second then its average speed is 1m/s. Its speed after 1s will be 2m/s (for that average speed to apply) and its acceleration will be 2m/s^2.
Well if that's the case, in this example of
http://www.physicsclassroom.com/Class/1DKin/U1L1e.cfm
You see the table under the section "The Meaning of Constant Acceleration"
the acceleration shouldn't be constant.

Thanks for all the help guys...
 
  • #11
debjit625 said:
Well I could understand what you guys are trying to say ,a body from rest just can't take a speed of 1 m/s only after 1 sec it will come to that speed,in the first interval I am doing it wrong... but what about this example in this site
http://www.physicsclassroom.com/Class/1DKin/U1L1e.cfm
You see the table under the section "The Meaning of Constant Acceleration"
I know it says about a free falling object,lets say my car was moving with a speed of 1 m/s rather than being at rest and plug in the rest... what I am doing different from that example
Note that the chart showing distances gives average speed during the intervals, not the speed at the end of the interval.


Well if that's the case, in this example of
http://www.physicsclassroom.com/Class/1DKin/U1L1e.cfm
You see the table under the section "The Meaning of Constant Acceleration"
the acceleration shouldn't be constant.
There are three tables in that section. Which one do you mean? (Two show constant acceleration, one shows non-constant acceleration.)
 
  • #12
debjit625 said:
I know it says about a free falling object,lets say my car was moving with a speed of 1 m/s rather than being at rest and plug in the rest... what I am doing different from that example
In your chart, you listed the speeds at the end of each interval, not the average speed.

If your acceleration is 1 m/s^2, then you have:
Code:
Time     Speed
0          0 m/s
1          1 m/s
2          2 m/s
3          3 m/s

What you need, to match the chart on that webpage, is the average speed in each interval:
Code:
Interval     Ave Speed
0 - 1          0.5 m/s
1 - 2          1.5 m/s
2 - 3          2.5 m/s
 
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  • #13
I mean this table

Code:
Time Interval	Ave Velocity 	Distance During Time Interval	    Total Distance Traveled 
0 - 1 s	        ~ 5 m/s	        ~ 5 m	                            ~ 5 m
1 -2 s	        ~ 15 m/s	        ~ 15 m	                            ~ 20 m
2 - 3 s	        ~ 25 m/s	        ~ 25 m	                            ~ 45 m
3 - 4 s	        ~ 35 m/s	        ~ 35 m	                            ~ 80 m

And this is my table
Code:
Time          Avg Velocity          Distance Traveled During Time Interval          Total Distance Traveled 
0s - 1s       1m/s                    1m                                                          1m
1s - 2s       2m/s                    2m                                                          3m 
2s - 3s       3m/s                    3m                                                          6m 
3s - 4s       4m/s                    4m                                                          10m
4s - 5s       5m/s                    5m                                                          15m
OK they are talking about average velocity ,now let say my average velocity was 1 m/s and I moved 1 meter ,if it can't be then how come a 5 m/s of average velocity makes 5 meter of distance covered.

What I am confused is what difference I have made ... from that above example...
I moved 1 m in the first interval with an average velocity of 1 m/s
They moved 5 m in the first interval with an average velocity of 5 m/s

I moved 2 m in the second interval with an average velocity of 2 m/s
They moved 15 m in the first interval with an average velocity of 15 m/s

They are increasing with 10 m/s and I am increasing with 1 m/s ,except that I don't see any much difference ,well I know my one is not correct as the math is not fitting in.

I am not able to visualize it,well I will keep thinking on this...

Thanks again
 
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  • #14
debjit625 said:
I mean this table

Code:
Time Interval	Ave Velocity 	Distance During Time Interval	    Total Distance Traveled 
0 - 1 s	        ~ 5 m/s	        ~ 5 m	                            ~ 5 m
1 -2 s	        ~ 15 m/s	        ~ 15 m	                            ~ 20 m
2 - 3 s	        ~ 25 m/s	        ~ 25 m	                            ~ 45 m
3 - 4 s	        ~ 35 m/s	        ~ 35 m	                            ~ 80 m
This table is based on uniformly accelerated motion.

And this is my table
Code:
Time          Avg Velocity          Distance Traveled During Time Interval          Total Distance Traveled 
0s - 1s       1m/s                    1m                                                          1m
1s - 2s       2m/s                    2m                                                          3m 
2s - 3s       3m/s                    3m                                                          6m 
3s - 4s       4m/s                    4m                                                          10m
4s - 5s       5m/s                    5m                                                          15m
Your table is not based on uniformly accelerated motion.


OK they are talking about average velocity ,now let say my average velocity was 1 m/s and I moved 1 meter ,if it can't be then how come a 5 m/s of average velocity makes 5 meter of distance covered.
There's nothing wrong with traveling 1 meter in 1 second if your average speed during that second was 1 m/s. But that represents an acceleration of 2 m/s^2. To get an average speed of 1 m/s when starting from 0, you must end up at 2 m/s at the end of 1 second.

What I am confused is what difference I have made ... from that above example...
I moved 1 m in the first interval with an average velocity of 1 m/s
They moved 5 m in the first interval with an average velocity of 5 m/s

I moved 2 m in the second interval with an average velocity of 2 m/s
They moved 15 m in the first interval with an average velocity of 15 m/s

They are increasing with 10 m/s and I am increasing with 1 m/s ,except that I don't see any much difference ,well I know my one is not correct as the math is not fitting in.
You need to start with the time & speed chart I gave in my last post, which was based on a uniform acceleration = 1 m/s^2, and then figure out the average speed in each interval. I gave the chart for the average speeds in my last post. Do you understand how I determined the average speed?
 
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  • #15
you are trying to use constant velocity equation v=s/t instead of a constant acceleration equation
here are the variables s=displacement, t=time, u=initial velocity v=final velocity a=acceleration
here are the constant acceleration equations

s=ut+0.5at^2
v=u+at
s=(v+u/2)*t
v^2=u^2+2as
s=vt-0.5at^2

when constant acceleration is involved these equations can be used. if constant velocity then v=s/t can be used.
so take a car that is at rest and then accelerates at 1ms^-2 for 5 seconds we have this situation - note initial velocity will be zero
s=0*t+0.5*1*5
the ut cancels due to u=0
so we have
s=0.5*1*5
s=2.5 meters.

I hope this has helped?
 
  • #16
OK guys I have been asking so many stupid questions ,so I will take a pause here and stop bothering you people,and try to understand it by myself and then I will post further questions (hope they will be not stupid enough)

Thanks for all your help guys
 
  • #17
debjit625 said:
OK guys I have been asking so many stupid questions ,so I will take a pause here and stop bothering you people,and try to understand it by myself and then I will post further questions (hope they will be not stupid enough)

Thanks for all your help guys

Your table, 1m in 1st second, 2m in 2nd second etc is what you get if the acceleration is 1.0 ms-2 but with an initial speed of 0.5 ms-1
 
  • #18
OK I am back with my questions...well here is a new question (related to this thread) I just want to know is it an uniform acceleration or not...

An object moving along a straight path with initial velocity of 5 m/s and a constant acceleration of 5 m/s^2 ,suppose that the object is at a distance of 10 meter from the origin (think about X axis) at time t = 0 ,then is this position-time data table correct and is it an uniform acceleration.

Code:
Time          Position from origin
0s             10.0m
1s             17.5m
2s             30.0m
3s             47.5m
4s             70.0m
5s             97.5m

Thanks
 
  • #19
PeterO said:
Your table, 1m in 1st second, 2m in 2nd second etc is what you get if the acceleration is 1.0 ms-2 but with an initial speed of 0.5 ms-1

Hi Peter,I understood that I can't start with 0 m/s ,I need a constant accelerating body or if I take 0 m/s as initial velocity my acceleration will be not constant in that way.

But what my problem is the relation mentioned in my first post i.e.. "The total distance traveled is directly proportional to the square of the time"

Thanks
 
  • #20
debjit625 said:
Hi Peter,I understood that I can't start with 0 m/s ,I need a constant accelerating body or if I take 0 m/s as initial velocity my acceleration will be not constant in that way.

But what my problem is the relation mentioned in my first post i.e.. "The total distance traveled is directly proportional to the square of the time"

Thanks

Fine:

The Formula for calculating distance covered can be written as s = ut +0.5at2.

This shows that displacement (s) is proportional to the square of the time only if the initial velocity (u) is zero

With constant acceleration, the average speed during any time interval is the average of the initial and final velocity of that interval.

That means that if the average velocity for the first second was 1 m/s, then the final velocity had to be 2 m/s, since 1 is the average of 0 & 2.

For the 2nd second (t=1 to t=2) the average velocity cannot be 2 m/s since the initial velocity is already 2 m/s and you want it to increase.

If the body accelerated from 0 m/s to 2 m/s during the 1st second, it will increase from 2 m/s to 4 m/s during the 2nd second. This means an average velocity of 3 m/s, and a distance covered of 3m.

So the total distance covered is 4m (1 + 3)

If you wanted initial velocity of 0 m/s, and acceleration of 1 ms2, then the distance covered each second are 0.5, 1.5, 2.5, .. and total distances covered of 1/2, 2, 4.5, 8 etc.
 
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  • #21
@Peter , well at last your points cleared many things...

So my above example will not work as its initial velocity is 5 m/s (the "ut" will not be zero in this case).

Can you guys provide me any good online resource to study physics.

Thanks to all for your help
 
  • #22
debjit625 said:
@Peter , well at last your points cleared many things...

So my above example will not work as its initial velocity is 5 m/s (the "ut" will not be zero in this case).

Can you guys provide me any good online resource to study physics.

Thanks to all for your help

I love this guys books and videos - I presume the online also works

http://www.conceptualphysics.com/

Peter

wrong link, try these
http://southwest.mpls.k12.mn.us/hewitt_conceptual_physics_powerpoint_presentations [Broken]
 
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  • #23
Thanks
 

1. What is acceleration?

Acceleration is the rate of change of velocity over time. It is a measure of how quickly the velocity of an object is changing.

2. How is acceleration calculated?

Acceleration is calculated by dividing the change in velocity by the change in time. The formula for acceleration is: a = (vf - vi) / t, where a is acceleration, vf is final velocity, vi is initial velocity, and t is time.

3. Is acceleration always related to distance traveled?

No, acceleration is not always related to distance traveled. Acceleration is related to the change in velocity over time, while distance traveled is related to the displacement of an object. However, acceleration can affect the distance traveled by an object.

4. How does acceleration affect distance traveled?

Acceleration can affect distance traveled in a few ways. First, if an object is accelerating, it will cover more distance in a given amount of time compared to if it were moving at a constant velocity. Additionally, the direction of acceleration can also affect the distance traveled, as it can cause the object to change direction and cover a longer distance. Finally, the magnitude of acceleration can also impact the distance traveled, as a larger acceleration will result in a greater change in velocity and therefore a longer distance traveled.

5. Can an object have acceleration without moving a certain distance?

Yes, an object can have acceleration without moving a certain distance. This is because acceleration is related to the change in velocity over time, not the distance traveled. Therefore, an object can have acceleration even if it is not moving a certain distance, as long as its velocity is changing.

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