How Do You Calculate Instantaneous Velocity at Point 2?

AI Thread Summary
To calculate the instantaneous velocity at point 2, one can analyze the distances between points and the time intervals. The distances between points 1 and 2 (5 cm) and points 2 and 3 (9 cm) suggest variable acceleration, as the object speeds up. The average velocity can be determined by calculating the velocities for each segment and averaging them, but it's essential to consider that the acceleration is changing. The position function x(t) = x_0 + v_0t + 1/2 * at^2 can be used to find the average acceleration and subsequently the instantaneous velocity at the midpoint between the two time intervals. Understanding these principles will help accurately determine the instantaneous velocity at point 2.
deficiency4math
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Hi,

I was wondering how to solve the instantaneous velocity for this.

I have 3 points which have 5 cm between point 1 and point 2 and 9 cm between point 2 and point 3 (this is easy, i just need to grasp the concept)

The question is "What is the instantaneous velocity for point 2?

How would I figure this out?

thanks :smile:
 
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Do you have any times?
 
oh, yes, sorry,

the time intervals between the points are 1/40th of a second (lets say)

(sorry, I forgot to post them... I kinda forgot!)
 
Can you give a little background? What kind of motion is going on here, constant acceleration?
 
it would be variable acceleration, because the consecutive distance between 1&2 is 5 and 2&3 9... so let's say that each time, the velocity increases by one.

Would I just take the velocity of 1-2 (5cm per 1/40th of a second) and 2-3 (9cm per 1/40th of a second) and find the average of them to get the instantaneous?
 
deficiency4math said:
it would be variable acceleration, because the consecutive distance between 1&2 is 5 and 2&3 9... so let's say that each time, the velocity increases by one.

Define acceleration in terms of velocity. Does acceleration have to change for velocity to change?

Would I just take the velocity of 1-2 (5cm per 1/40th of a second) and 2-3 (9cm per 1/40th of a second) and find the average of them to get the instantaneous?

I don't know how accurate you need to be, but what I would do is try to figure out the average acceleration. The object is speeding up, so its position function is:

x(t) = x_0 + v_0t + 1/2 * at^2

We traveled x(t) = 14cm in t=0.05sec. Can you find the acceleration? Can you find the velocity at t=0.025 with this?
 

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