Find the number of classical revolutions the electron makes

Reference no: EM13340851

Atomic Hydrogen in the ground state absorbs a photon, raising the electron to the n=3 excited state. The lifetime of the electron in this excited state and returning to the ground state is 0.1 ns.

a) Determine the emitted photon wavelength (in nm) for this quantum transmition.

b) Determine the number of classical revolutions the electron makes during the 0.1 ns time interval.

c) Utilize the Uncertainty Principle to validate the lifetime of the electron during the n=3 --> 1 states.

Reference no: EM13340851

Questions Cloud

Find out which elements are being oxidized : Determine which elements are being oxidized and which elements are being reduced in each reaction

Explain the reaction from solution effects : 232.5 ml of 0.0384 M aqueous manganese(III) oxide solution reacts with 1.058 g of solid octahedral sulfur (S8) and the water to give sulfurous acid and a manganese(II) oxide precipitate. You may assume no volume changes in the reaction from soluti..

What should the gastemperature be to achieve this wavelength : An oscillator vibrating at 1220Hz produces a sound wave that travels through an ideal gas at 325 m/s when the gas temperature is 22.0 ?C. What should the gas temperature be to achieve this wavelength

Effects of the understatement of purchases : Effects of the understatement of purchases - compensation to reported earnings and the possible relation between this type of bonus scheme and the accounting errors.

Find the number of classical revolutions the electron makes : Atomic Hydrogen in the ground state absorbs a photon, raising the electron to the n=3 excited state. Determine the number of classical revolutions the electron makes during the 0.1 ns time interval

Explain what mass of copper will be deposited on the object : A metallic object to be plated in copper is placed in a solution of CuSO4. What mass of copper will be deposited on the object if a current of 0.22 amps flows through the cell for 1.5 hours

How long does it take to completely unwind the hose : A 16.1-m length of hose is wound around a reel, which is initially at rest. The moment of inertia of the reel is 0.42 kg · m2, and its radius is 0.174 m. how long does it take to completely unwind the hose from the reel

Determine what is the separation between the slits : The m=1 bright fringe is located 2.0 cm from the centerline. The interference pattern is observed on a screen located 4.0 m from the slits. What is the separation between the slits

How equity transactions affect components of equity : How equity transactions affect the components of stockholders' equity. For instance, what impact do these transactions have on financial ratios, such as EPS (earnings per share)?

User Account

All Pages