Position and Velocity as a function of time

AI Thread Summary
The discussion focuses on deriving the position and velocity of an ant walking from -2f to -f at a constant speed v. The position function is given by q=(2f-vt)f/(f-vt), while the velocity function is u = f2v/(f-vt)2. Participants emphasize the need to express the ant's position as a function of time to apply the lens formula 1/q=1/f+1/x, where x is the ant's distance from the lens. The conversation highlights the relationship between the ant's movement and the resulting image distance. Overall, the key is to connect the ant's position over time to the image's position using established optics equations.
Wilkins
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Homework Statement


At time t=0 an ant starts to walk from -2f to -f at a constant speed v. Show that the position (q) and velocity (u) of the ants image as a function of time is given by:

q=(2f-vt)f/(f-vt) AND u = f2v/(f-vt)2

cBWUY.jpg

Homework Equations



d(u/v)/dx = [V(du/dx)-U(dv/dx)]/v2

The Attempt at a Solution



I am finding it hard to start the solution.
 
Last edited:
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When the ant is at distance x from the lens, where is the image? You surely have a standard equation for that.
 
haruspex said:
When the ant is at distance x from the lens, where is the image? You surely have a standard equation for that.

1/q=1/f+1/x
where x is the ants distance
q is the image distance and
f is the focal length

OR In Newtonian terms:
X1 = S1 - f
X2 = S2 - f
 
Last edited:
Wilkins said:
1/q=1/f+1/x
where x is the ants distance
q is the image distance and
f is the focal length
OK, so if you can express the ant's position as a function of time, you can use the above equation to get the position of the image as a function of time.
 

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