Position of a proton in Quantum mechanics.

Skullmonkee · Mar 25, 2009

Homework Statement

Find the maximum accuracy that can be found to a proton's position without changing it's (not-realativistic) kinetic energy by more that 1 keV

I think this involves Heisenberg's uncertainty principle \Delta x\Delta p=hbar/2 but I am not sure at all.

Now to find the momentum p of a non-realativistic kinetic energy we can use E(kinetic) = 1/2mv^2 = p^2/2m
which gives p = \sqrt{}2mE
however this is as far as i got.

yogeshbua · Jun 30, 2009

Usually, professors expect you to realize that p\ge\Delta p. Use this and see whether the answer matches!

yogeshbua · Jun 30, 2009

That is, use that
p\Delta p=m\Delta E
\Rightarrow \Delta p\le\sqrt{m\Delta E}
\Rightarrow \Delta x\ge \frac{\hbar}{2\sqrt{m\Delta E}}

Position of a proton in Quantum mechanics.

Homework Statement

Thread 'Initial conditions for orbits around a wormhole'

Thread 'How do I solve the 3D magnetic field of a Halbach Rotor?'

Thread 'Help to convert units of a simple formula'

Similar threads

Hot Threads

How to obtain these equations in 'Spinors in Physics' by J Hladik?

Quantum Tunelling Problem with Boundary Conditions

Quantum Negative Value For <p^2>

Derivation of the acceleration in the Eddington-Finkelstein Metric

Relativistic electrodynamics: transformation of electric dipole moment

Recent Insights

Insights Why Entangled Photon-Polarization Qubits Violate Bell’s Inequality

Insights Quantum Entanglement is a Kinematic Fact, not a Dynamical Effect

Insights What Exactly is Dirac’s Delta Function? - Insight

Insights Relativator (Circular Slide-Rule): Simulated with Desmos - Insight

Insights Fixing Things Which Can Go Wrong With Complex Numbers

Insights Fermat's Last Theorem