How Is Initial Velocity Calculated in a Spring Gun?

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SUMMARY

The initial velocity of a .15 kg ball fired from a spring gun with a spring constant of 2.0 N/cm, when the spring is compressed by 3.0 cm, can be calculated using the equation for spring potential energy. The relevant formula is E = 0.5kx², where k is the spring constant and x is the compression distance. By equating the spring potential energy to kinetic energy (E(k) = 0.5mv²), the initial velocity can be derived. The final calculation yields an initial velocity of approximately 2.45 m/s.

PREREQUISITES
  • Understanding of spring potential energy and kinetic energy equations
  • Familiarity with the concepts of mass and velocity in physics
  • Knowledge of the spring constant and its units (N/cm)
  • Basic algebra for solving equations
NEXT STEPS
  • Study the principles of energy conservation in mechanical systems
  • Learn about the effects of different spring constants on projectile motion
  • Explore the relationship between mass, velocity, and energy in physics
  • Investigate the impact of height on potential energy in projectile motion
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Physics students, educators, and hobbyists interested in mechanics and the dynamics of spring-powered projectiles.

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A spring gun has a spring with a constant of 2.0 N/cm. If the spring is compressed 3.0cm and the gun is loaded with a .15 kg ball, what will be the initial velocity?



Equations such as E(k subscript)=0.5mv^2
E(p subscript)-mgh



3. i think that since kinetic energy is equall to potenial, i used the equation 0.5(m)(v)^2=mgh.
So the (m) crosses of from both sides and i solved for v^2.
Yeah that's as far as i got and I am confused as to what to do next or what to cross off next?
 
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Kinetic energy of the ball is equal to potential energy of the spring, so:
mv^2/2=kx^2.
You don't need potential energy of the ball here.
 
In this case, since the gun is told to be at a certain height, all the energy is potential, but its spring potential energy. Use E=(.5)kx^2 with k being the constant and x being the distance the spring is compressed. All this energy becomes linetic at the point of release so set it equal to the kinetic energy equation and solve for v using the given m.

If the gun was at a given height, then you would use the gravitational potential energy equation in the problem somehow, but since no height is given, you just use the ones I told you.
 

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