For pair production i.e. for the productuion of electron are positron, the incident photon must have a minimum frequency of the orfer of

For pair production i.e. for the production of electron and positron, the incident photon must have a minimum frequency of the order of

In an ordianary atom, as a first approximation, the motion of the nucleus can be ignored. In a positronium atom a positronreplaces the proton of hydrogen atom. The electron and positron masses are equal and , therefore , the motion of the positron cannot be ignored. One must consider the motion of both electron and positron about their center of mass. A detailed analyasis shows that formulae of Bohr's model apply to positronium atom provided that we replace m_(e) by what is known reduced mass is m_(e)//2 . The orbital radius of the first excited level of postronium atom is

In an ordianary atom, as a first approximation, the motion of the nucleus can be ignored. In a positronium atom a positronreplaces the proton of hydrogen atom. The electron and positron masses are equal and , therefore , the motion of the positron cannot be ignored. One must consider the motion of both electron and positron about their center of mass. A detailed analyasis shows that formulae of Bohr's model apply to positronium atom provided that we replace m_(e) by what is known reduced mass is m_(e)//2 . If the Rydberg constant for hydrogen atom is R , then the Rydberg constant for positronium atom is

In an ordianary atom, as a first approximation, the motion of the nucleus can be ignored. In a positronium atom a positronreplaces the proton of hydrogen atom. The electron and positron masses are equal and , therefore , the motion of the positron cannot be ignored. One must consider the motion of both electron and positron about their center of mass. A detailed analyasis shows that formulae of Bohr's model apply to positronium atom provided that we replace m_(e) by what is known reduced mass is m_(e)//2 . When system de-excites from its first excited state to ground state, the wavelngth of radiation is

The figure shows a plot of three curves a, b, c, showing variation of photocurrent vs collector plate potential for three different intensities I_(1), I_(2) and I_(3) having frequencies v_(1), v_(2) and v_(3) respectively incident on a photosensitive surface. Point out the two curves for which the incident radioations have same frequency but different intensities.

A high-energy gamma-photon may turn into an electron-positron pair in the field of heavy nuclei. What is the minimum energy of the gamma-photon?

In NO_(3)^(-) ion, the number of bond pairs and lone pairs of electrons on nitrogen atom are Thinking process To solve this sequence we must know the structure of NO_(3)^(-) ion i.e, Then, cound the bond pairs and lone pairs of electron on nitrogen.

In NO_(3)^(-) ion, the number of bond pairs and lone pairs of electrons on nitrogen atom are Thinking process To solve this sequence we must know the structure of NO_(3)^(-) ion i.e, Then, cound the bond pairs and lone pairs of electron on nitrogen.

For the photoelectric effect, the maximum kinetic energy E_(k) of the emitted photoelectrons is plotted against the frequency  of the incident photons as shown in the figure. The slope of the curve gives

Light having photon energy hupsilon is incident on a metallic plate having work function phi to eject the electrons. The most energetic enectrons are then allowed to enter in a region of uniform magnetic field B as shown in Fig. The electrons are projected In X-Z plane making an angle theta with X-axis and magnetic field is vecB=B_0hati along X-axis maximum pitch of the helix described by an electron is found to be p. Take mass of electron as m and charge as q. Based on the above information, answer the following questions: Q. The plot between X-coordinate of the location of electron as a function of time for different frequencies upsilon of the incident light is