Projectile motion in a spring loaded gun

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Homework Help Overview

The problem involves a Turbo Booster toy that launches a projectile using a helical spring. The task is to calculate the number of turns in the spring necessary to provide sufficient energy for the projectile to ascend approximately 8 meters before falling. The context includes parameters such as the mass of the projectile, spring dimensions, and the working deflection.

Discussion Character

  • Exploratory, Conceptual clarification, Mathematical reasoning

Approaches and Questions Raised

  • Participants discuss using conservation of energy to find the initial velocity and spring constant. There are questions about how to determine the number of turns in the spring and the relationship between spring parameters and the spring constant.

Discussion Status

Some participants suggest that the problem may extend beyond standard introductory physics topics, while others confirm that conservation of energy can be applied to find the spring constant. Guidance is provided regarding the formula for the spring constant of a helical spring, indicating a potential path forward for the original poster.

Contextual Notes

There is mention of a clash allowance and the need for additional material from the professor, which may affect the understanding of the problem. The discussion also highlights the complexity of relating mechanical design aspects to physics principles.

Darknes51986
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Homework Statement


1. A Turbo Booster toy that launches a 60-gram “insect” glider projectile by compressing a helical spring and then releasing the spring when the trigger is pulled. When pointed upward the glider should ascend approximately 8 m before falling. The launcher is made with carbon steel wire, with a diameter of d=1.1 mm. The coil diameter is D=10 mm. Calculate the number of turns N in the spring such that it would provide the necessary energy to the glider. The total working deflection is x=150 mm with a clash allowance of 10%.

Homework Equations


I need to used conservation of energy to find initial velocity and spring constant I believe. Final velocity is 0. Not sure how to find the number of turns in the spring though.

KE=1/2*m*V^2
PE=m*g*h

The Attempt at a Solution



g=9.81 m/s^2 gravity
d=1.1 mm wire diameter
D=10 mm col diameter
m=60 gm mass of toy
x=150 mm working deflection
dist= 8 m distance traveled

C=D/d=10/1.1= 9.091 spring index
G=11.2*10^6 psi (for carbon steel)
k=?
V=?

somehow need number of turns
 
Last edited:
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trying to bump this up
 
This looks like it's outside the scope of a standard introductory physics class, which normally does not discuss how the number of turns and wire diameter related to the spring constant.

I am wondering if your professor has given you additional material on this?

At any rate, it is possible to find the spring constant k using conservation of energy methods.
 
This is definitely a combination of physics and mechanical design. You have the correct approach. Conservation of energy will allow you to calculate the spring constant needed to impart the correct amount of energy needed to reach 8 m. From here, you can use the equation for the spring constant of a helical spring (as obtained from Shigley's Chapter 10-3)
k = \frac{d^4 G}{8D^3 N}
Where d is the wire diameter, D is the mean spring diameter, G is the shear modulus of the material, and N is the...tada, number of turns in the spring.

Good luck,

p.s. tex is still down, so try to read this for the spring constant
k = (d^4 * G) / (8D^3 N)
 

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