Finding Launch Speed in Projectile Motion: What Equation Should I Use?

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Homework Help Overview

The discussion revolves around a lab problem related to projectile motion, specifically focusing on finding the launch speed of a projectile given certain parameters such as the angle of launch, height of the launcher, and horizontal distance traveled. The context is set within classical mechanics, particularly under the influence of gravity.

Discussion Character

  • Exploratory, Conceptual clarification, Problem interpretation

Approaches and Questions Raised

  • Participants discuss the basic equations of motion and question their applicability due to missing time measurements. There is an exploration of whether the trajectory equation can be used in this scenario, considering the launch setup from a height.

Discussion Status

The discussion is ongoing, with participants seeking clarification on the appropriate equations to use. Some have offered equations but have not reached a consensus on their applicability to the specific problem at hand. There is a sense of exploration regarding the parameters and equations available.

Contextual Notes

Participants note the absence of a known time in their measurements, which complicates the use of certain equations. The discussion includes considerations of the degrees of freedom in the problem setup.

frasifrasi
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Ok, for our lab on projectile (2-d) motion,

We know :

Angle of launcher(little canon) with respect to surface
height of launcher abover surface
average horizontal distance ball traveled at that angle/height
-9.8 gravity force

and are required to find the launch speed. What equation should I use to accomplish that?

Thank you.
 
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The equation of motion.
 
which is...?
 
The equation of motion for constant acceleration a:
\vec x (t) = \vec x (0) + \vec v(0) t + \frac{1}{2} \vec a t^2
 
frasifrasi:

What equation is ALWAYS the basic equation of motion in classical mechanics?
What is that law called?
 
I don't think I have learned that yet. Don't have a known time in our measurements so that equation wouldn't work. Am I supposed to use the trajectory equation? But would it would it work in this case since the launcher was launching the projectile from a table onto the floor?
 
frasifrasi said:
Don't have a known time in our measurements so that equation wouldn't work.
I hadn't told you to use it if it wasn't an equation that helps you solve your problem. Just count the degrees of freedom: How many real-valued parameters are unknown? How many real-valued equations did I give you?
 
yeah, those riddles are helping a lot.
Can anyone comment or suggest an equation?
 

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