How Far Did Big Bertha's Shell Hit During WWI?

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During World War I, the German artillery piece known as Big Bertha fired shells with an initial speed of 1.11 km/s at an angle of 35.8 degrees. To calculate the horizontal distance the shell traveled, users must first determine the horizontal (Vx) and vertical (Vy) components of the velocity using trigonometric functions. The time of flight can be calculated using the vertical component, and the total distance can be found by multiplying the horizontal component by the total time in the air.

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During World War I, the Germans had a gun called Big Bertha that was used to shell Paris. The shell had an initial speed of 1.11 km/s at an initial inclination of 35.8 degrees to the horizontal.
a.How far away did the shell hit? Answer in km.
b. How long was it in the air?

I have a RECTPOLAR program on my calculator that we are allowed to use. I know I need the resultant and the angle for that to give me the x magnitude and the y magnitude. How would I go about setting this up?
 
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Vx = V.cos(35.8) horizontal component

Vy = V.sin(35.8) vertical component
 
i don't think that makes sense...
 
cos(35.8) gives me -.32 and sin(35.8) gives me -.95

i don't think that works
 
Make sure you have your calc. set to degrees ( as opposed to radians).
Cos(35.8) = 0.81106.
 
ohh ok now i got that...

so vx = .811 and vy = .585

so should i go and do the vf, vo, a, d, t set up?
like
vx .811
dx?
t

vfY
voY 0
aY -9.8
dY
t

and if so, how would i find a 3rd component to the Y part?
 
Not quite. Look at post #2 again.

Vx = 1.11*0.811 Km/s
Vy = 1.11*0.585 km/s

Using Vy you can work out how long the shell is in the air ( think of a stone thrown vertically with Vy ). The time taken to get to where Vy=0 is half the travel time. When you know the travel time, multiply by Vx to get the distance.
 
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