Radiation, with wavelenght `6561 Å` falls on a metal surface to produce photoelectrons. The electrons are made to enter a uniform magnetic field of `3 xx 10^(-4)`T. If the radius of the largest circular path followed by the electrons is 10 mm, the work function of the metal is close to:

The radiation corresponding to 3 rarr 2 transition of hydrogen atom falls on a metal surface to produce photoelectrons . These electrons are made to enter circuit a magnetic field 3 xx 10^(-4) T if the ratio of the largest circular path follow by these electron is 10.0 mm , the work function of the metal is close to

Photo-electrons are produced from a metal surface using a radiation of wavelength 6561Å . These photo-electrons, when made to enter a uniform magnetic field of intensity 3 xx 10^(-4) T, move along different circular paths with a maximum radius of 10mm, then the work function of the metal is close to

An electron accelerated through 500 V , enters a transverse uniform magnetic field of magnitude 100 mT . The radius of the circular path described by the electron is nearly

Photons of wavelength 6556 A^@ falls on a metal surface. If ejected electrons with maximum K.E. moves in magnetic field of 3 xx 10^(-4) T in circular orbit of radius 10^(-2) m, then work function of metal surface is

The rediation emitted when an electron jumps from n = 3 to n = 2 orbit in a hydrogen atom falls on a metal to produce photoelectron. The electron from the metal surface with maximum kinetic energy are made to move perpendicular to a magnetic field of (1//320) T in a radius of 10^(-3) m . Find (a) the kinetic energy of the electrons, (b) Work function of the metal , and (c) wavelength of radiation.

An electron of mass m and charge e is accelerated by a potential difference V. It then enters a uniform magnetic field B applied perpendicular to its path. The radius of the circular path of the electron is

Light of wavelength 180 nm ejects photoelectrons from a plate of metal whose work - function is 2 eV. If a uniform magnetic field of 5xx10^(-5) T be applied parallel to the plate, what would be the radius of the path followed by electrons ejected normally from the plate with maximum energy.

When the wavelength of radiation falling on a metal is changed from 500 nm to 200 nm, the maximum kinetic energy of the photo electrons becomes three times larger. The work function of the metal is close to :

An electron (q = 1.6 × 10^(-19) C) is moving at right angles to a uniform magnetic field of 3.534 xx10^(-5) T The time taken by the electron to complete a circular orbit is

If an electron is moving in a magnetic field of 5.4 xx 10^(-4)T on a circular path of radius 32 cm having a frequency of 2.5 MHz, then its speed will be