Angle of inclination of the projectile: θ

AI Thread Summary
The discussion revolves around the calculation of the angle of inclination (θ) for a projectile using kinematic equations. The initial equations presented include d = at + ½ at^2, which leads to confusion regarding the variables used, particularly 'a' for acceleration and 'u' for initial speed. Participants point out that the correct form of the equation should include 'u' as the initial velocity, leading to the proper equation d = ut + (1/2)at^2. The calculated angle of 29.8 degrees is questioned as incorrect, prompting a request for clarification on the calculations. The conversation emphasizes the importance of using the correct variables and equations in projectile motion analysis.
jillz
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d = at + ½ a t^2

Horizontally: 7.12m = a cos θ t

at = 7.12m/ cos θ

Vertically: 10m = a sin θ t + ½ g t^2

10m = (7.12m/ cos θ ) *sin θ + ½ g t^2 = 7.12m tan θ + ½ g t^2

10m = 7.12m tan θ + ½ g t^2

10m = 7.12m tan θ + ½ g 1.1^2g

Solve for θ

Angle of inclination of the projectile: θ = 29.8o

This answer (29.8) is wrong...that much I know; what did I do/where did I go wrong in my calcs??
 
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Well, what's the question? What is "a"-- acceleration? Your first equation is incorrect, if so: d=ut+(1/2)at^2
 
that's interesting; my teacher says to use a for acceleration... what is 'u'
 
u is initial speed, sometimes denoted v_i. One does normally use a for acceleration, but that equation is not correct. See http://www.glenbrook.k12.il.us/GBSSCI/PHYS/Class/1DKin/U1L6a.html for the kinematic equations.
 
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'u' is the variable for what??

if 'a' is acceleration and I'm not supposed to use 'u', then shouldn't the equation be d=at+(1/2)at^2 ??
 
ok, thanks!
 

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