Solving for T in an acceleration equation

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To solve for Δt in an acceleration equation involving Δt², the quadratic formula is applicable. In this context, the equation is rearranged to the standard form ax² + bx + c = 0, where 'a' corresponds to the coefficient of t², 'b' includes the term with t, and 'c' is the constant. The equation is derived from the motion equation d = d∅ + v∅t + 1/2 vt², leading to Δd = v∅t + 1/2 vt². By setting Δd to zero, the values of a, b, and c can be identified, allowing for the calculation of two solutions for Δt, corresponding to the maximum height and the end of the trajectory. This method effectively determines the change in time for the given acceleration scenario.
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How do I solve for Δt when there's a Δt^2
 
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Just use the quadratic formula.
 
lep11 said:
Just use the quadratic formula.


So what would b, a and c be?
 
when you set the equation equal to zero a is the t^2 value, b is value with t variable, and c is just the number without the variable with it.

"ax^2 + bx + c"
 
idllotsaroms said:
when you set the equation equal to zero a is the t^2 value, b is value with t variable, and c is just the number without the variable with it.Ty
 
Last edited:
I thought you were trying to solve for the change in time? So you would set the equation equal to zero d = d∅ + v∅t + 1/2 vt^2
and you just put d - d∅ = Δd
Δd = v∅t + 1/2 vt^2

where v∅=initial velocity

so the v∅t would be the b value
1/2 * v would be the a value
you would subtract Δd from both sides to get the equation equal to 0 and Δd would be your c value

it would look like
0 = 1/2vt^ + v∅t - Δd
0 = at^2 + bt + c

so you'll get two answers one at the max height of trajectory when velocity = 0 and one at the end of the trajectory where velocity = 0 again
 

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