Minimal Launch Velocity needed

In summary, the question asks for the minimum launch velocity needed for a small negatively charged particle to leave the surface of a positively charged dielectric sphere and travel to infinitely remote places. The question also considers the effect of increasing the radius of the sphere by a factor of 2. The potential energy of the particle at distance R is a key factor in determining the minimum launch velocity, as well as the force exerted on the particle at a distance r ≥ R from the center of the sphere. The concept of escape velocity may also be relevant in this scenario.
  • #1
UTGirl24
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0

Homework Statement



A small negatively charged particle (mass m, charge –q) is currently at rest at the surface of a large positively and uniformly charged dielectric sphere (radius R, charge density p). What minimal “Launch velocity” v0 should be given to this particle so that it could leave the attracting “mother” sphere to travel to infinitely remote places? If the radius R of the sphere is increased by a factor of 2 (everything else left the same), how would the minimal launch velocity change?

Homework Equations



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The Attempt at a Solution



Please help!
 
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  • #2
Hints:

What is the potential energy of the particle currently (at distance R)?

What will the potential energy of the particle be if it really does manage to fly off to infinity?
 
  • #3
Suppose that the particle is at a distance [itex]r \ge R[/itex] from the center of the sphere.
What is the force exerted on it?

Also, have you ever seen the concept of 'escape velocity' (e.g. for rockets in a gravitational field)?
 

1. What is minimal launch velocity needed?

Minimal launch velocity needed refers to the minimum speed required for an object to launch into orbit or reach a specific height in the atmosphere. It is an essential factor in determining the success of a launch.

2. How is minimal launch velocity needed calculated?

The calculation of minimal launch velocity needed involves various factors such as the mass of the object, the force of gravity, and air resistance. It can be determined using mathematical equations and simulations.

3. Why is minimal launch velocity needed important?

Minimal launch velocity needed is crucial because if the launch speed is too low, the object will not have enough energy to break free from the Earth's gravitational pull and will not reach its intended destination. It also helps in optimizing fuel consumption and reducing launch costs.

4. Can minimal launch velocity needed vary for different objects?

Yes, the minimal launch velocity needed can vary for different objects depending on their mass, shape, and aerodynamics. For example, a rocket carrying a heavier payload will require a higher launch velocity than a smaller satellite.

5. How is minimal launch velocity needed determined for a specific launch?

The determination of minimal launch velocity needed for a specific launch involves complex calculations and simulations by engineers and scientists. It takes into account various factors such as the launch location, weather conditions, and the intended orbit or destination of the object.

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