Calculate Time for Projectile w/ 12° Incline

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Homework Help Overview

The discussion revolves around calculating the time a projectile will travel from a cannon tilted at 12 degrees to a target placed at a certain distance. The participants are working with initial velocities and vertical displacement to determine the time of flight.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • The original poster attempts to apply the kinematic equation for vertical motion but questions which initial velocity to use in their calculations. Other participants clarify the need to use the initial velocity in the Y direction for the vertical displacement equation.

Discussion Status

Participants are actively engaging in clarifying the correct values to use in the projectile motion equations. There is a focus on ensuring the appropriate initial velocity component is applied, indicating a productive direction in the discussion.

Contextual Notes

There is uncertainty regarding the correct initial velocity to use, as the original poster is unsure whether to use the muzzle velocity or the initial velocity in the X direction. This reflects a potential misunderstanding of the components of projectile motion.

kLPantera
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Homework Statement



My group and I had a lab, and we need to calculate time in order to proceed with the lab.

We need to calculate how far and how long the projectile will travel using the degree we are given to hit the target that will be placed X meters using our calculations.

We have a cannon tilted 12 degrees
Delta Y: 0.87m above ground (so -0.87)
V initial x: 4.02 m/s (calculated using cos)
V initial y: 0.85 m/s (calculated using sin)
Muzzle Velocity: 4.11 m/s
t = ?

Homework Equations



However I am not sure whether or not I used the right values for the equation, to find the amount of time it will travel from the cannon to the target.

The Attempt at a Solution



Y = Vit + (1/2)at2
-0.87=4.11t + (1/2)(-9.8)t2
0 = -4.9t2 +4.11t + 0.87

The next step I used the quadratic formula to find the possible values for t. However for Vi do I use 4.11 or 4.02? Since 4.11 m/s is the muzzle velocity and 4.02 m/s is the initial velocity in the x direction.
 
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In the given formula you have to v initial y.
 
v initial y...? what?
 
rl.bhat said:
In the given formula you have to v initial y.

What rl.bhat is saying, is that in your formula (Y=V_it + (1/2)at^2[/tex]), since you are looking for the distance in the Y direction (D_y[/tex]), you should be looking for V_{iy}[/tex] (the initial velocity in the Y direction).
 
Oh ok thanks all.
 

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