What is the range of a projectile fired from a spring?

In summary, to find the distance a spring will shoot from a fixed angle, you can use the equation E=0.5kx^2, where k and x are given. You can also use the formula Range = (v02 sin 2θ)/g, where v0 is the initial velocity and θ is the angle of projection. The kinetic energy of the projectile will be equal to the stored potential energy of the spring once it is fired. To find the horizontal distance travelled, you can multiply the projectile's horizontal component of velocity by the time it is in the air.
  • #1
marshall4
50
0
How do i find the distance that a spring will go using the equation
E=0.5kx^2, k & x is given.

Do i make that equation equal to 0.5mv^2 and solve for v? What would i do with v after that?
 
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  • #2
E = ½kx2 appears to be the equation for the elastic potential energy of the spring. The force on the spring is the first derivative with respect to extension of this, or

F = kx

Re-arranging,

x = F/k

If you place a mass, m, on the spring, the extension will then be

x = mg/k

Where g is the acceleration due to gravity, i.e. the numerator is the mass's weight.
 
  • #3
How do i find how far a spring will shoot from a fixed angle?
Is there an equation similar to E=0.5kx^2 but that has an angle(theta) in it?
 
  • #4
AD: I think you are going the extra mile. Energy considerations is indeed the easiest way to do it.

[tex] KE_{in} = \frac{1}{2}mv^2 = Max EPE = \frac{1}{2}kx^2 [/tex]

From an angle...? Depends on what you are modelling the spring as. ie. if it is free to rotate to fit the line of your pull.

It all depends on the specific situation, though.
 
  • #5
Oh, I'm sorry. I misunderstood the question. I thought Marshall was asking how far a spring would extend after you put a mass on it. I see what he means now. He's asking how fast it will be able to shoot a projectile.

In that case, yes, the kinetic energy of the projectile will be equal to the stored potential energy of the spring once it is fired.

If you want to find out how far the projectile will go given the initial velocity once it is airborne and its angle of projection, you can find its vertical component of velocity and figure out how long it will be in the air for. You can then multiply this by its horizontal component of velocity and find the horizontal distance travelled.

Another way of getting the range is using the formula:

Range = (v02 sin 2θ)/g

Where v0 is the initial velocity and θ the angle of projection.
 

FAQ: What is the range of a projectile fired from a spring?

What is Hooke's Law?

Hooke's Law is a principle in physics that describes the relationship between the force applied to an elastic material and the resulting displacement or change in length of the material.

Who discovered Hooke's Law?

Robert Hooke, an English scientist and inventor, discovered Hooke's Law in the 17th century. It is named after him as he was the first to describe this principle.

What is the formula for Hooke's Law?

The formula for Hooke's Law is F = kx, where F is the force applied, k is the spring constant, and x is the displacement or change in length of the material.

What is the significance of distance in Hooke's Law?

The distance, or displacement, is a crucial factor in Hooke's Law as it determines the amount of force that will be applied to an elastic material. The greater the distance, the greater the force will be.

Can Hooke's Law be applied to all materials?

No, Hooke's Law is only applicable to elastic materials, which are materials that can be stretched or compressed and return to their original shape when the force is removed. Materials like rubber, springs, and metals are examples of elastic materials that follow Hooke's Law.

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