Projectile Motion Time Calculation for Big Bertha Gun in World War I

AI Thread Summary
The discussion revolves around calculating the time a shell fired from the Big Bertha gun during World War I remains airborne, given an initial velocity of 1.1 x 10^3 m/s at a 45-degree angle. The key equation used for this calculation involves the vertical motion of the shell, factoring in the acceleration due to gravity. Participants clarify that the launch and landing points being the same implies the shell returns to its original height. The y-component of the initial velocity is essential for determining the time of flight, and the equation dy = v1xT + 1/2axT^2 is applied to find the solution. Ultimately, the calculation aims to derive the time using the appropriate kinematic equations.
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Homework Statement



7. During World War I, the German army bombarded Paris
with a huge gun referred to, by the Allied Forces, as “Big
Bertha.” Assume that Big Bertha fired shells with an initial
velocity of 1.1 x 10^3 m/s [45° above the horizontal].

(a) How long was each shell airborne, if the launch point was the same as the landing point

Homework Equations



dy = v1xT+1/2ax X t^2

The Attempt at a Solution



v1 = 1.1 x 10^3
a= -9.81
t = ?
 
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I assume "by the same point as the landing point" means the same y coordinate. If the point was the same the gun would be firing straight up.

Anyway, since the gun is at a 45 degree angle, you can find the y component of the initial velocity, and you know the acceleration of gravity. Just use the equation x = x0 + v0t + .5at^2 to solve for t.
 
What would x equal

t = Squared root x-.5(-9.81)

thanks in advance
 

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