Complete Square + Leibniz question (2 questions)

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Homework Help Overview

The discussion revolves around completing the square in equations and the manipulation of Leibniz notation related to distance, velocity, and time. Participants are exploring the thought processes behind these mathematical techniques and their implications in physics.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants are questioning how the completion of the square is achieved in the given equations and what reasoning underlies this process. There is also inquiry into the cancellation of units in Leibniz notation and how this relates to time.

Discussion Status

The discussion is active, with participants sharing their interpretations and relevant equations. Some are attempting to clarify their understanding of the notation and its implications, while others are exploring different ways to rearrange and simplify expressions.

Contextual Notes

There are indications of confusion regarding the notation and the structure of the equations, with participants expressing uncertainty about the relationships between the variables involved.

Craig Scott
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Homework Statement


1. How did they complete the square for these equations in the picture below? What was their thought process?

2. distance/velocity = time , velocity/acceleration = time , In leibniz notation how does this cancel out?

When you divide, how does it cancel out to give you a time unit?

Homework Equations


1. In picture

2. ds/dt / d2s / dt2

The Attempt at a Solution


1. It seems like it came out of thin air.

2. dt/ds = time?
 

Attachments

  • completesq.jpg
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What is 2. in your relevant equations?

##V = d/t \to t = d/V##
You can add A and subtract A (equivalent to adding 0), and it's still the same.
##\frac{v_{y0}x}{v_{x0}} - \frac{gx^2}{2v_{x0}^2} + \frac{v_{y0}^2}{2g} - \frac{v_{y0}^2}{2g} ##
They factored out ## \frac{-g}{2v_{x0}^2} ##

Rearrange it and it might look a little closer.
 
In my relevant solutions it is velocity/acceleration, the way I put it was just in leibniz notation in terms of s(t)
 
I think I was just confused by all the slashes. Sort of makes it look like one big fraction made of fractions.
 
V2y0/2g

How did you find that
 
Craig Scott said:
V2y0/2g

How did you find that
I assume you are asking about getting from the second equation in the image to the third.
Just expand the square in the third equation and simplify. You should arrive at the second equation.
 

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