Practice Test


Q1) A drop of radius one micron carries a charge of 4e. If the density of oil is 2g/cc, the electric field held required to balance its is : Show Answer


Q2) The distance between two plates of a cathode ray oscilloscope is 1 cm and potential difference between them is 1200 V. If an electron of energy 2000eV enters at right angles to the field, what will be the deflection if the plates are 1.5 cm long ? Show Answer


Q3) In a Thomson's set up for e/m, the same high tension d.c. supply provides potential to anode for acceleration and also the potential to anode for acceleration and also the positive voltage to the deflecting plate in the region of crossed fields. If the supply voltage is doubled, by what factor the magnetic field be increased to keep the electron beam undeflected ? Show Answer


Q4) In Millikan's oil drop method, an oil drop having a charge 'ne' is held stationary by applying a potential difference of 400 V between two parallel plates. If the size of the drop is doubled without changing the charge, the potential difference required to keep its stationary is : Show Answer


Q5) The ratio of specific charge e/m of an electron to that of a Hydrogen ion is : Show Answer


Q6) In a mass spectrograph, an ion A of mass number 24 and charge +e and an ion B of mass number 22 and charge +2e both enter the same magnetic field with the same velocity. The radius of circular path of A is 24cm, then the radius of circular path of B is : Show Answer


Q7) The mass of proton is 1837 times that of an electron. An electron and a proton are injected into a uniform electric field at right angles to the direction of the field with the same kinetic energy. Then : Show Answer


Q8) An electron and a proton are injected into a uniform electric field at right angles to the direction of the field with equal momentum. Then : Show Answer


Q9) An electron and a proton are injected into a uniform magnetic field at right angles to the direction of the field with the same momentum Then : Show Answer


Q10) An electron beam passes through a magnetic field of B tesla and electric of E volt/meter acting simultaneously and in mutually perpendicular direction. If the electron beam remains undeviated, the speed of electron beam must be : Show Answer


Q11) Radiations of energies twice and five times the work function of metal are incident turn by turn. The ratio of max. velocities of photoelectrons in two cases will be : Show Answer


Q12) The maximum kinetic energy of the photo-electrons released when it is stopped by 2v of negative potential is : Show Answer


Q13) The ratio of wavelength of 10 KeV photon with that of 10 KeV electron is : Show Answer


Q14) Photoelectric work function of a metal is 4eV. What is the maximum wavelength to which the metal is photosensitive ? Show Answer


Q15) Consider the spectral line resulting from the transition n = 2 to n = 1 in the atoms and ions given below, the shortest wavelength is produce by : Show Answer


Q16) When a photon of energy 7eV is made incident on a metal then the emitted electron is stopped by a stopping potential of -5.5 V. The work function of metal will be: Show Answer


Q17) The ratio of wavelength of a photon and that of an electron of same energy will be : Show Answer


Q18) A photon of wavelength 0.1 A is emitted by a helium atom. The recoil energy of the atom as a consequence of emission of photon will be : Show Answer


Q19) The uncertainty in the measurement of position of an electron of energy 1 Ke V is 1 A. The percentage uncertainty in the measurement of its momentum will be : Show Answer


Q20) In an X-rays tube, if the electrons are accelerated through 140 KV then anode current obtained is 30mA. If the whole energy of electrons is converted into heat then the rate of production of heat at anode will be : Show Answer


Q21) If 10% of the energy supplied to an incandescent light bulb is radiated as visible light, then the number of photons emitted by a 60W bulb per second will be : Show Answer


Q22) If the distance of 100 W lamp is increased from a photo cell, the saturation current in the photo cell varies with distance d as : Show Answer


Q23) A radio transmitter operates at a frequency of 800 kHz and a power of 10 kW. The number of photons emitted per second is : Show Answer


Q24) Which one of the following graphs represents correctly the variation of photoelectric current (i) with intensity (l) of incident radiations : Show Answer


Q25) For three different metals A,B,C photo-emission is observed one by one and maximum kinetic energy (K) versus frequency (v) of incident light graphs are plotted.Which fig. represents the curves correctly ? Show Answer


Q26) A photo cell is illuminated by a small bright source placed 1 m away. When the same source of light is placed 2 m away, the electrons emitted by the photo cathode : Show Answer


Q27) Light of two different frequencies whose photons have energies 1 eV and 2.5 eV respectively successively illuminate a metal of work function 0.5 eV. The ratio of maximum speeds of the emitted electrons will be : Show Answer


Q28) The maximum kinetic energy of photo-electrons emitted from a surface when photons of energy 6 eV tall on it is 4 eV. The stopping potential in volts is : Show Answer


Q29) Photons of energy 6 eV fall on a photometal of work function 4 eV. The minimum kinetic energy of emitted photoelectrons is : Show Answer


Q30) A small photocell is placed at a distance of 4m from a photosensitive surface. When light falls on the surface the current is 5mA. If the distance of cell is decrease to 1m, the current will become : Show Answer


Q31) The velocity of the most energetic electrons emitted from a metal surface is doubled when the frequency v of incident radiation is doubled. The work frequency of the metal is : Show Answer


Q32) The energy of incident photon is 12.375 eV while the energy of scattered photon is 9.375 eV. Then the kinetic energy of recoil electron is : Show Answer


Q33) In Compton effect incident X-ray photon has energy 12.4 keV. If the energy of scattered photon is 6.4 keV, the kinetic energy of recoiled electron is : Show Answer


Q34) The ratio of momenta of an electron and an alpha particle which are accelerated from rest through a potential difference of 100 volts is : Show Answer


Q35) The voltage across the electrodes of a cathode ray gun is 500 volts. Calculate the momentum of the electrons. Show Answer


Q36) An electron beam passes through a parallel plate condenser. The electric intensity between plates is 20 V/cm, the distance between plates is 5cm and the length of the path traversed by beam as 10cm. Calculate the deflection angle of the beam. Show Answer


Q37) Electrons which have been accelerated by a potential difference of 1000 V enter co-terminus electric and magnetic fields of strengths 20 V/cm and 1G respectively as in the Thomson's experiment. Estimate speed of electrons if they move undeviated through the system. Show Answer


Q38) A hydrogen atom at rest in the second excited state emits photon when it jumps to the ground state. Calculate the de-Broglie wave-length of the hydrogen atom. Energy of ground state = - 13.6 eV. Show Answer


Q39) A photoelectric cell is illuminated by a small bright source of light placed at 1m. If the same source of light is placed 2 m away, the electrons emitted by the cathode : Show Answer


Q40) Light of frequency 1.5 times the threshold frequency is incident on a photo-sensitive material. If the frequency is halved and the intensity is doubled, the photoelectric current is doubled, the photoelectric current becomes : Show Answer


Q41) According to Bohr's theory, the electron in orbits have definite energy values, then according to uncertainty principle, the life time of a n excited state will be : Show Answer


Q42) The energy of a photon corresponding to the visible light of maximum wavelength is approximately : Show Answer


Q43) A particle of mass 1g is located in a box of size 2 cm. The uncertainty in the momentum of the electron will be : Show Answer


Q44) In a mass spectrograph, an ion A of mass number 24 and charge +e and an ion B of mass number 22 and charge +2e both enter the same magnetic field with the same velocity. The radius of circular path of A is 24 cm, then the radius of circular path of B is : Show Answer


Q45) When X-rays are scattered by electrons their wavelength increases. Their phenomenon is called : Show Answer


Q46) In a photoelectric cell, the current stops when the collecting, plate is one volt negative with respect to emitting metal. The maximum kinetic energy of the photoelectrons is : Show Answer


Q47) The number of complete de-Broglie wavelengths associated with the electron in nth orbit of hydrogen atom is : Show Answer


Q48) Einstein's work on the photoelectric effect provided support for the equation : Show Answer


Q49) An oil drop carrying a charge q has a mass m kg. It is falling freely in air with terminal speed v. The electric field required to make the drop move upwards with the same speed is : Show Answer


Q50) A particle with a specific charge S is fired with a speed v towards a wall at a distance d, perpendicular to the wall. What minimum magnetic field must exist in this region for particle not to hit the wall ? Show Answer


Q51) Kinetic energy of emitted electron depends upon : Show Answer


Q52) Electron with energy 80 keV are incident on the tungsten target of an X-ray tube. K shell electrons of tungsten have -72.5 keV energy. X-rays emitted by the tube contain only : Show Answer


Q53) An ionised gas contains both positive and negative ions. If its is subjected simultaneously to an electric field along the + x direction and a magnetic field along the + z direction, then : Show Answer


Q54) Particle nature and wave nature of elector-magnetic wave and electrons be shown by : Show Answer


Q55) The energy of X-rays is 2keV, then frequency is : Show Answer


Q56) The de-Broglie wavelength of electron of energy 600 eV is : Show Answer


Q57) The electric field required to keep a water drop of mass m just to remain suspended when charged with one electron is : Show Answer


Q58) The most important characteristic of electrons in the production of X-rays is : Show Answer


Q59) Which one among the following shows particle nature of light ? Show Answer


Q60) A photocell is illuminated by a source of light placed at a distance d. It distance is decreased to d/2, then no. of electron emitted by it : Show Answer


Q61) The work function of oxide coated tungsten emitter will be : Show Answer


Q62) If work function of metal is 3 eV then threshold wavelength will be : Show Answer


Q63) If particles are moving with same velocity, then maximum de-broglie wavelength for : Show Answer


Q64) When ultraviolet rays incident on metal plate then photoelectric effect does not occur, it occurs by incident of : Show Answer


Q65) Which of the following is not the property of cathode rays : Show Answer


Q66) An electron having charge e and mass m is moving in an electric field E. Its acceleration will be: Show Answer


Q67) The potential difference applied to an X-ray tube is 5 kV and the current through is 3.2 mA. Then the number of electrons striking the target per second is : Show Answer


Q68) J.J-Thomson's cathode-ray tube experiment demonstrated that : Show Answer


Q69) If an electron and a photon propagate in the form of waves having the same wavelength, it implies that they have the same : Show Answer


Q70) Photoelectric effect shows : Show Answer


Q71) For a given kinetic energy which of the following has the smallest de-Broglie wavelength ? Show Answer


Q72) The phenomenon inverse to photoelectric effect is : Show Answer


Q73) The rest mass of a photon is : Show Answer


Q74) If the wavelength of the incident light changes from 400 nm to 30 nm, the shopping potential for photoelectrons emitted from a surface becomes approximately Show Answer


Q75) A photon of energy 4 eV is incident on a metal surface whose work function is 2eV. The minimum reverse potential to be applied for stopping the emission of electrons is : Show Answer


Q76) The magnitude of saturation photoelectric current depends upon : Show Answer


Q77) Monochromatic light incident on a metal surface emits electrons with kinetic energies from zero to 2.6 eV. What is the least energy of the incident photon if the tightly bound electron needs 4.2 eV to remove ? Show Answer


Q78) Which of the following have highest specific charge ? Show Answer


Q79) The wavelength of matter wave is independent of : Show Answer


Q80) A photo cell employs photoelectric effect to convert : Show Answer


Q81) In a discharge tube ionisation of enclosed gas is produce due to collisions between : Show Answer


Q82) In photoelectric effect, the electrons are ejected from metals if the incident light has a certain minimum : Show Answer


Q83) Flash light equipped with a new set of batteries produce bright white light. As the batteries wear out : Show Answer


Q84) Determine the value of n for which the de- Broglie wavelength corresponding to nth orbit is equal to wavelength of nth line of Lyman series. Given Z = 11. Show Answer


Q85) Stopping potential required to reduce the photoelectric current to zero : Show Answer


Q86) The photoelectric threshold frequency of a metal is v. When light of frequency 4v is incident on the metal, the max, kinetic energy of the emitted photo-electrons is : Show Answer


Q87) When light of wavelength 300 nm falls on a photoelectric emitter,photo-electrons are liberated. For another emitter, light of wavelength 600nm is sufficient for liberating photo-electrons. The ratio of the work function of two emitters is : Show Answer


Q88) Which of the following figure represents the variation of particle momentum and associated de-Broglie wavelength ? Show Answer


Q89) A photon in motion has a mass : Show Answer


Q90) The energy of a photon of light of wavelength 450 nm is : Show Answer


Q91) The slope of frequency of incident light and stopping potential for a given surface will be : Show Answer


Q92) Which of the following statement is correct ? Show Answer


Q93) An electron and photon have same de-Broglie wavelength. Then kinetic energy of electron is Show Answer


Q94) A radio-transmitter radiates power of 1kW at wavelength 198.6 m. How many photons does it emit per sec ? Show Answer


Q95) A parallel plate B is charged to 100 V while plate A is earthen, with separation of 1cm. A third metal plate C is introduced at a distance of 1/3 from A. An electron starts from plate A. What is minimum potential applied to C, So that electron will not reach B ?
______________________ B
______________________ C
______________________ A
+ Show Answer


Q96) The light rays are incident on a metal surface. The light photons have an energy 1.8 eV and the work function of the metal is 1.2 eV. What amount of stopping potential is to be applied to stop the electrons from emitting ? Show Answer


Q97) Cathode rays are a stream of : Show Answer


Q98) If the energy of a photon is increased by a factor of 4, its momentum : Show Answer


Q99) The phenomenon inverse of photoelectric effect is : Show Answer


Q100) A beam of electrons passes through undetected through mutually perpendicular electric and magnetic fields. If the electric is switched off and the same magnetic field is maintained, the electrons move : Show Answer


Q101) The work function of a surface of a photosensitive material is 6.2 eV. The wavelength of the incident radiation for which the stopping potential is 5 V lies in the : Show Answer


Q102) In the phenomenon of electric discharge through gases at low pressure, the coloured glow in the tube appears as a result of : Show Answer


Q103) Monochromatic light of wavelength 667 nm is produced by a helium neon laser. The power emitted is 9 mW. The number of photons arriving per sec on the average at a target irradiated by this beam is : Show Answer


Q104) Two positive ions, each carrying a charge q, are separated by a distance d. If F is the force of repulsion between the ions, the number of electrons missing from each ion will be (e being the charge on an electron ) Show Answer


Q105) A beam of cathode rays is subjected to crossed Electric (E) and Magnetic fields (B). The fields are adjusted such that the beam is not deflected the specific charge of the cathode rays is given by : Show Answer


Q106) Which one of the following bonds produces a solid that reflects light in visible region and whose electrical conductivity decreases with temperature and has high melting point ? Show Answer


Q107) Photoelectric emission occurs only when the incident light has more than a certain minimum : Show Answer


Q108) In the Davission and Germer experiment, the velocity of electrons emitted from the electrons gun can be increased by : Show Answer


Q109) Electron used in an electron microscope are accelerated by a voltage of 25 kV. If the voltage is increased to 100 kV then the de-Broglie wavelength associated with the electrons would : Show Answer


Q110) In photoelectric emission process from a metal of work function 1.8 eV, the kinetic energy of most energetic electrons is 0.5 eV. The corresponding stopping potential is : Show Answer


Q111) Silver has a work function of 4.7 eV. When ultraviolet light of wavelength 100 nm is incident upon it, a potential of 7.7 V is required to stop the photoelectrons from reaching the collector plate. How much potential will be required to stop photoelectrons when light of wavelength 200 nm is incident on silver ? Show Answer


Q112) In a photoelectric experiment, the stopping potential is V, when the frequency of incident radiation is f and V' when the frequency of incident radiation is 2f. The value of (V' - V) is : Show Answer


Q113) A proton, a deutron and an alpha particle are accelerated by same potential difference. Their velocity will be in the ratio: Show Answer


Q114) The mass of a proton is 1840 times that of an electron. An electron and proton of same initial kinetic energy enter normally in a uniform electric field. Show Answer


Q115) The specific charge of an electron is : Show Answer


Q116) Which of the following is (are) not deflected by electric and magnetic fields ? Show Answer


Q117) The energy of a photon of X-rays of wavelength 1A.U is : Show Answer


Q118) The de-Broglie wavelength of an electron having kinetic energy 500 eV is : Show Answer


Q119) The electron is nearly 200 times lighter than a proton. An electron and a proton are moving so that their matter wave have a wavelength of 1 A.U. The ratio of their kinetic energies is : Show Answer


Q120) The photoelectric effect supports quantum theory of light because : Show Answer


Q121) Lights of two different frequency whose photons have energies 2 eV and 2.5 eV respectively successively illuminate a metal whose work function is 0.5 eV. The ratio of the maximum speeds of the emitted electrons will be : Show Answer


Q122) A bulb of 10 W is at distance of 10 km from a man. How many photons are entering into the eye per second if the diameter of the eye is 2mm ? Show Answer


Q123) If the kinetic energy of the moving particles is E, then the de-Broglie wavelength is : Show Answer


Q124) The work function of a metal surface is 4.2 eV. The maximum wavelength which can eject electrons from this metal surface is : Show Answer


Q125) Neglecting variation of mass with energy the wavelength associated with an electron, having a kinetic energy E is proportional to : Show Answer


Q126) X-rays absorption will be maximum for sheets of : Show Answer


Q127) In a photoelectric experiment, photons of energy 5 eV are incident on a metal surface. The liberated photoelectrons are first stopped an electrode at a potential of 3.5 V. The work function of the metal surface is : Show Answer


Q128) The hardness of X-rays can be increased : Show Answer


Q129) Mosley's law related to : Show Answer


Q130) Velocity of an electron whose mass is ten times its rest mass is : Show Answer


Q131) Ratio of the specific charge of a proton to that of an electron is : Show Answer


Q132) For a spectral line of wavelength 400 A.U the energy in eV of the photon associated with it, is : Show Answer


Q133) X-rays of wavelength 1 A.U. when scattered in a Compton scattering in transverse direction, will have an increase in wavelength of : Show Answer


Q134) The shortest wavelength of X-rays emitted from an X-ray tube depends on : Show Answer


Q135) According to Bohr's theory the relation between main quantum number 'n' and radius of the orbit is : Show Answer


Q136) What is the energy of an emitted photon when the hydrogen atom changes from an energy state of n = 5 to n = 4 ? Show Answer


Q137) A hydrogen atom emits blue wavelength when the transition takes place n = 4 to n = 2. In which colour it would emit when the transition is form n = 5 to n = 2 ? Show Answer


Q138) For ionising an excited hydrogen atom the energy 'E' required in eV will be : Show Answer


Q139) The energy gap between successive energy levies in a hydrogen atom, with increasing order of 'n' : Show Answer


Q140) A spectral line resulting the transitions n = 2 to n = 1 in the atoms are given below. Which of these produces shortest wavelength ? Show Answer


Q141) The energy required to excite a hydrogen atom from n = 1 to n = 2 is 10.2 eV. What is wavelength emitted by atom when it returns to ground state ? Show Answer


Q142) The speed v of the electron in an orbit of radius r is : Show Answer


Q143) The first and the last member of the Lyman series are : Show Answer


Q144) The ionisation potential of hydrogen atom is 13.6 eV. The energy required to remove the electron from second orbit is : Show Answer


Q145) If the ionization energy for the hydrogen atom is 13.6 electron- volts, the energy required to excite it from the ground state to the next higher state is nearly : Show Answer


Q146) The ratio of K.E and total energy of the electron in hydrogen atom as per Bohr's model is : Show Answer


Q147) The ionisation potential of hydrogen is 13.6 eV. If the atom is excited by a monochromatic beam of 12.1 eV, the spectral lines emitted will be :` Show Answer


Q148) In an atom two electrons move round the nucleus in circular orbits of radii R and 4R. The ratio of the time taken by them to complete one revolution is : Show Answer


Q149) An electron revolves round the nucleus of charge Ze. In order to excite the electron from the state n = 2 to n = 3, the energy required is 47.2 eV. The value of Z is : Show Answer


Q150) Which of the following is true ? Show Answer


Q151) In which region of e.m. spectrum does the Lyman series of hydrogen lie ? Show Answer


Q152) The angular momentum of electron in nth orbit is given by : Show Answer


Q153) The energy required to remove an electron in a hydrogen atoms from n = 10 state is : Show Answer


Q154) The velocity of an electron in ground state is : Show Answer


Q155) Adsorption coefficient of X-rays for given wavelength is larger for Show Answer


Q156) The ionisation potential for H-atom is 14V. The K-level for atom with Z = 80 should therefore, be closest to : Show Answer


Q157) The ratio of the energies of hydrogen atom in its first and second excited states is : Show Answer


Q158) Doubly ionised helium atom and hydrogen ion are accelerated from rest through the same potential helium difference. The ratio of the final velocities of helium and hydrogen ion is : Show Answer


Q159) The stopping potential for the photoelectrons emitted from a metal of work function 1.7 eV is 10.4 V. Identify the energy levels in H-atom which emit this wavelength : Show Answer


Q160) The wavelength of the first line of the Lyman series for Hydrogen is same as that of second line of Balmer series for some hydrogen like atom X. what is the Z-value of X ? Show Answer


Q161) The ratio between K.E and the total energy of election of hydrogen atom accordingly to Bohr's model is : Show Answer


Q162) The speed of an electrons in the orbit of hydrogen atom in the ground state is : Show Answer


Q163) The ratio of magnetic dipole moment of an electron of charge e and mass in Bohr's orbit in hydrogen to its angular momentum is : Show Answer


Q164) The ratio of the radius of the orbit of the electron orbiting the hydrogen nucleus to that of an electron orbiting a deutrium nucleus is : Show Answer


Q165) The wavelength of the first line of the Lyman series for Hydrogen is same as that of second line of Balmer series for some hydrogen like atom X.Find the ionisation potential for X. Show Answer


Q166) Rydberg's constant R is equal to : Show Answer


Q167) The shortest wavelength emitted in Lymen series is : Show Answer


Q168) The difference in the angular momentum of the electron in the two successive orbits of hydrogen atom is : Show Answer


Q169) In an electronic transition, atom cannot emit : Show Answer


Q170) The kinetic energy and potential energy of the orbital electron in the hydrogen atom taking into consideration their signs as T and U, which of the following gives the total energy of electron ? Show Answer


Q171) When a particle and anti-particle combine the result is a : Show Answer


Q172) For a stability of nucleus the relations between N number of neutrons and Z atomic number should be as : Show Answer


Q173) When two protons attract each other : Show Answer


Q174) Which of the following particle is unstable ? Show Answer


Q175) The mass defect in a nuclear fusion is 0.03 per cent. Energy liberated in one kilogram of fusion is : Show Answer


Q176) The half-line of radon is 3.8 days. After how many days will 1/10th of a radon sample remain behind ? Show Answer


Q177) The decay constant of a radioactive element whose half life period is 1620 years is : Show Answer


Q178) Radioactive element has a half life of 10 days. How much element will be left after a period of 40 days if the original amount of element is 2gms ? Show Answer


Q179) The half-life of radioactive element depends on : Show Answer


Q180) A radioactive isotope has a half life period of 5 years. The fraction which decays in 15 years is : Show Answer


Q181) Half-time of an element is 140 days. Out of 16g, the 15g of element will decay in : Show Answer


Q182) Two radioactive substances 'X' and 'Y' initially contain equal number of atoms. 'X' has half-life of one hour and 'Y' has half of 2 hours. After 2 hours the ratio of the rate of disintegration of 'X' to that of y is : Show Answer


Q183) The mass defect in a nucleus with Z = 2 and A= 4 is 0.04 a.m.u. The B.E. per nucleon is : Show Answer


Q184) When one gm of mass is converted into energy, the energy released in kWh is : Show Answer


Q185) During a nuclear reaction, protons are destroyed producing an energy of 3724 MeV. The number of protons destroyed is : Show Answer


Q186) A freshly prepared radioactive source of half-life 2 hours emits of intensity which is 64 times the permissible safe level. The minimum time after which it is possible to work safely with this source is : Show Answer


Q187) Two radioactive substances 'X' and 'Y' have half - lives of T and 2T respectively. Samples of 'X' and 'Y' contain equal number of nuclei initially. After a time 4T,the ratio of undecayed atoms of 'X' to the undecayed atoms of 'Y' is : Show Answer


Q188) The radioactivity of an element becomes 1/64th of its original value in 60sec. The half-life period is : Show Answer


Q189) The mass of He is 4 and that of sulphur is 32.The radius of the sulphur nucleus is large than that of helium by the factor of : Show Answer


Q190) A certain radioactive element has half life period of 20 years. If we have a block with 10 g if the element, after how many years will there be just 2.5 g of the element left in the block ? Show Answer


Q191) A G.M counter used for measurement of the activity records 2400 counts/ minute at a certain instant and after an hour the count drops to 300 per minute. What is the half- life of the substance ? Show Answer


Q192) An atom can be considered as having a dense nucleus of neutrons and protons with surrounding distribution of electrons. If there are x- neutrons, y- protons and z- electrons, then what sort of relation exist between x, y and z in a small neutral atom ? Show Answer


Q193) The half life of radioactive radon is 3.8 days. The time at the end of which 1/20th of Randon sample will remain undecayed is : Show Answer


Q194) A sample contains 16 gms of radioactive material, the half life of which is 2 days. After 32 days, the amount of sample left is : Show Answer


Q195) A certain element disintegrates for an interval of time equal to its mean life. The fraction of the original amount that remains undecayed is Show Answer


Q196) What percentage of the original radioactive atom is left after 5 half lives ? Show Answer


Q197) A radio isotope has half life of 75 years. The fraction of this material that would decay in 150 years will be : Show Answer


Q198) At ordinary temperature when we pass light through a tube filled with hydrogen then in the absorption spectrum : Show Answer


Q199) When the electron has a transition from the state (n + 1) to state n, then frequency v of the emitted radiation will be proportional to : Show Answer


Q200) According to Bohr's theory of hydrogen atom, the angular momentum of electron in any orbit of hydrogen is : Show Answer


Q201) An energy of 24.6 eV is required to remove one electron from a neutral helium atom. The energy (in eV) required to remove both the electrons from a neutral helium atom is : Show Answer


Q202) If the speed of the electron in a hydrogen atom orbit of principal quantum number n be v. Then the curve showing variation of v with n is : Show Answer


Q203) If the hydrogen atoms are excited to states with principal quantum number n, then the number of possible emission lines is : Show Answer


Q204) The difference in frequencies of series limit of Lymen series and Balmer series is equal to the frequency of the first line of the : Show Answer


Q205) A hydrogen atom in the ground state absorbs 12.09 eV of energy. The change in the orbital angular momentum of the electrons is : Show Answer


Q206) The area of the electron orbit for the ground state of hydrogen atom is A. Then what will be area of the electron orbit corresponding to the first excited state ? Show Answer


Q207) First excitation potential of an atom is E. What will be the ionisation potential ? Show Answer


Q208) In a hydrogen like atom, the energy required to excite the electron from IInd to the IIIrd orbit is 47.2 eV. What is the atomic number of the atom ? Show Answer


Q209) A gas of monoatomic hydrogen is bombarded with a stream of electrons that have been accelerated from rest through a potential difference of 12.75 volt. In the emission spectra one cannot observe the lines of : Show Answer


Q210) A radioactive element X with a half life of 2 hours decays giving a stable element Y. After a time t, the ratio of X to Y atoms is 1 : 7, then time t is : Show Answer


Q211) The radioactive nucleus of an element X decay to a stable nucleus Y. A graph of the rate of formation of Y against time t, would be looking like Show Answer


Q212) The counting rate observed from the radioactive source at t = 0 second was 1600 counts/sec and t = 8sec, it was 100 counts/sec. The counting rate per sec at t = 6sec will be : Show Answer


Q213) Over what distance in free space will the intensity of a 5 eV neutron beam be reduced by a factor one half ? (T = 12.8 min) Show Answer


Q214) When an electron jumps from the fourth orbit to the second orbit, one gets the : Show Answer


Q215) Nuclear force exists between : Show Answer


Q216) In the sum about 4 billion kg of matter is converted to energy each second. The power output of the sun is watt is : Show Answer


Q217) It is possible to understand nuclear fission on the basis of the : Show Answer


Q218) Atomic hydrogen has a life period of : Show Answer


Q219) Half-life of a substance is 20 minutes. What is the time between 33% decay and 67% decay ? Show Answer


Q220) The approximate value of quantum number n for the circular orbit of hydrogen 0.0001 mm in diameter is Show Answer


Q221) The isotope generally used for blood cancer is : Show Answer


Q222) When 3d orbital is complete, the new electron will enter in : Show Answer


Q223) An ionized gas contains both positive and negative ions. If it is subjected simultaneously to an electric field along the +x direction and a magnetic field along the +z direction, then : Show Answer


Q224) The electron in a hydrogen atom makes a transition from an excited state to the ground state. Which of the following statements is true ? Show Answer


Q225) What is binding energy of hydrogen nucleus ? Show Answer


Q226) Rutherford's X-ray scattering by particle concluded that : Show Answer


Q227) Which of the following is wrongly matched ? Show Answer


Q228) The half life period of a radioactive element X is same as the mean life time of another radioactive element Y. Initially both of them have the same number of atoms. Then : Show Answer


Q229) Which of the following Indian got a Nobel Prize in Physics ? Show Answer


Q230) The wavelength of light emitted from second orbit to first orbit in a hydrogen atom is : Show Answer


Q231) The electron emitted in beta radiation originates from : Show Answer


Q232) Which of the following has highest neutron ratio ? Show Answer


Q233) In an atom bomb energy us released by : Show Answer


Q234) Which of the following are suitable for the fusion process ? Show Answer


Q235) Which one of the following is the weakest kind of bonding in solids ? Show Answer


Q236) Heavy water is used as a modulator in nuclear reactor. The function of the modulator is : Show Answer


Q237) The mass number of a nucleus is : Show Answer


Q238) In which of the following systems will the radius of the first orbit (n = 1) be minimum ? Show Answer


Q239) For uranium nucleus, how does its mass vary with volume ? Show Answer


Q240) A laser beam is used for carrying out surgery because it : Show Answer


Q241) Nuclear fusion is possible : Show Answer


Q242) Radioactive nuclei that are injected into a patient collect at certain sites within his body, undergoing radioactive decay and emitting electromagnetic radiation. These radiations can then be recorded by a detector. This procedure provides an important diagnostic tool called : Show Answer


Q243) The percentage of mass covered to energy during nuclear reaction is : Show Answer


Q244) Which one of the following is most fissionable ? Show Answer


Q245) The percentage of fissionable mass in uranium 235 is : Show Answer


Q246) Which of the following has the same mass as that of electron ? Show Answer


Q247) Shorter wavelength is of : Show Answer


Q248) If the ionization potential of hydrogen atom is 13.6 eV then the ionization potential of Lithium is : Show Answer


Q249) The Bohr model of atoms : Show Answer


Q250) The energy difference between first two levels of hydrogen atom is 10.2 eV. For another element of atomic number 10 and mass number 20, this will be : Show Answer


Q251) For an electron in a hydrogen atom the frequency of photon for transition between levels 1 and 2 is v. The photon frequency for transition between levels 2 and 3 is close to : Show Answer


Q252) If R is Rydberg's constant then unit of Paschen series is : Show Answer


Q253) The energy level to which electron jumps from higher level to produce Balmer series of hydrogen atom is : Show Answer


Q254) The percentage change in the angular momentum of the electron when the transition is from 2nd to 1st orbit of hydrogen atom is : Show Answer


Q255) If L is the angular momentum of the electron in the second orbit of hydrogen atom, then the angular momentum in third orbit is : Show Answer


Q256) When hydrogen atom is raised from the ground state to an excited state the potential energy increases and K.E. Show Answer


Q257) The fraction of a sample of radium that would remain after 4800 years is (take half life of radium = 1600 years) : Show Answer


Q258) The experimentally measured dissociation energy of Lil is : Show Answer


Q259) The Magnetic Resonance Imaging (MRI) is based atom on the phenomenon of : Show Answer


Q260) We wish to see inside an atom. Assuming the atom to have a diameter of 100 pm, this means that one must be able to resolve a width of say 10 pm. If an electron microscope is used, the minimum electron energy required is about : Show Answer


Q261) The nuclei of which one of the following pairs of nuclei are isotones ? Show Answer


Q262) In any fission process, the ratio
mass of fission products / mass of parent nucleus is : Show Answer


Q263) Fission of nuclei is possible because the binding energy per nucleon in them : Show Answer


Q264) The total energy of an electron in the first excited state of hydrogen atom is about -3.4 eV. Its kinetic energy is : Show Answer


Q265) The ground state energy of hydrogen atom is - 13.6 eV. What is the potential energy of the electron in this state ? Show Answer


Q266) If a star can convert all the He nuclei completely into oxygen nuclei, the energy released per oxygen nucleus is [Mass of He nucleus is 4.0026 a.m.u. and mass of Oxygen nucleus is 15.9994 a.m.u] : Show Answer


Q267) The ionisation energy of 10 times ionised sodium atom is : Show Answer


Q268) A hydrogen atom in its ground state absorbs 10.2 eV of energy. The orbital angular momentum is increased by : Show Answer


Q269) Minimum excitation of Bohr's first orbit is hydrogen atom is: Show Answer


Q270) If the binding energy of the deutrium is 2.23 MeV. The mass defect given in a.m.u is : Show Answer


Q271) Which of the following is most unstable ? Show Answer


Q272) Check the correctness of the following statements about Bohr model of hydrogen atom :
(i) the acceleration of the electron in n = 2 orbit is more than in n = 1 orbit.
(ii) the angular momentum of the electron in n = 2 orbit is more than in n = 1 orbit.
(iii) the K.E. of the electron in n = 2 orbit is less than in n = i orbit. Show Answer


Q273) The binding energy of the innermost electron in tungsten is 40 keV. To produce the characteristic X- rays, using a tungsten target in an X-ray tube, the potential difference V between the cathode and the anti-cathode should be : Show Answer


Q274) The rest energy of an electron is 0.511 MeV. The electron is accelerated from rest to a velocity 0.5 c. The change in its energy will be : Show Answer


Q275) When an atom undergoes an alpha decay, its : Show Answer


Q276) A radioactive isotope has a half life of T years. The time after which its activity is reduced to 6.25% of its original activity is : Show Answer


Q277) A radioactive material has life of the one hour. Then the fraction of the material that remains without disintegration at the end of 4 hours is : Show Answer


Q278) What is the radius of 2nd Bohr orbit, given the radius of the first Bohr orbit is r. Show Answer


Q279) Mosley's law relates : Show Answer


Q280) Two nuclei have their mass numbers in the ratio of 1 : 3. The ratio of their nuclear densities would be : Show Answer


Q281) The ground state energy of hydrogen atom is -13.6 eV. When its electron is in the first excited state, its excitation energy is : Show Answer


Q282) The number of beta particles emitted by a radioactive substance is twice the number of alpha particles emitted by it. The resulting daughter is an : Show Answer


Q283) The ionization energy of the electron in the hydrogen atom in its ground state is 13.6 eV. The atoms are excited to higher energy levels to emit radiations of 6 wavelengths. Maximum wavelength of emitted radiation corresponds to the transition between : Show Answer


Q284) A radioactive nucleus of mass M emits a photon of frequency v and the nucleus recoils. The recoils energy will be : Show Answer


Q285) What is the de Broglie wavelength associated with an electron accelerated through a potential difference of 100 volts. Show Answer


Q286) The photoelectric cut-off voltage in a certain experiment is 1.5 V. The maximum kinetic energy of photoelectrons emitted is Show Answer


Q287) Monochromatic light of wavelength 632.8 nm is produced by a He-Ne laser. The power emitted is 9.42 m W. How many photons per second on the average,arrive at a target irradiated by this beam ? Show Answer


Q288) For light bean of wavelength 632.8 nm, what is the momentum of each photon in the beam ? Show Answer


Q289) A 100 W sodium lamp radiates energy uniformly in all directions. The lamp is located at the center of a large sphere that absorbs all the sodium light which is incident on it. The wavelength of the sodium light is 589 nm. At what rate are the electron delivered on the sphere ? Show Answer


Q290) The work function of a certain metal is 4.2 eV . Which among the wavelengths 390 nm, 440 nm, 550 nm and 760 nm will this metal give photoelectric emission ? Show Answer


Q291) An X-ray tube produces a continuous spectrum of radiation with its short wavelength end at 0.45 A. What is the maximum energy of a photon in the radiation. Show Answer


Q292) According to Einstein's photoelectric equation, the plot of the kinetic energy of the emitted photo electrons from a metal vs the frequency of the incident radiation gives a straight line whose slope Show Answer


Q293) Dual nature of radiation is shown by Show Answer


Q294) In a photoelectric cell, illuminated with a certain radiation, the minimum negative anode potential with respect to emitting metal required to stop the electron is 2 V. The maximum kinetic energy of photoelectron is Show Answer


Q295) The photoelectrons emitted from a surface of sodium metal are such that Show Answer


Q296) An ultraviolet light source causes the emission of photoelectrons from a zinc plate. A more intense source of the same wavelength would give
Maximum energy of electron No. of electrons / second Show Answer


Q297) The retarding potential for having zero photoelectron current Show Answer


Q298) Statement 1 : Electron microscope uses variable wavelengths of electrons for different resolving powers.
Statement 2 : As the accelerating voltage is increased, the wavelength of electron decreases Show Answer


Q299) The difference in maximum kinetic energy of photoelectrons from A and from B Show Answer


Q300) The threshold wavelength of A and B are related as : Show Answer


Q301) What is the ratio of the wavelengths of a photon and that of an electron of the same energy ? Show Answer


Q302) The de-Broglie wavelength of an electron is same as that of a photon. If the velocity of electron is 50% of the speed of light, then ratio of kinetic energy of photon to the kinetic energy of electron is Show Answer


Q303) Which of the following graphs correctly represents the variation of particle momentum with associated de - Broglie wavelength ? Show Answer


Q304) J.J.Thomson's cathode - ray tube experiment demonstrated that Show Answer


Q305) Photon is the name given to Show Answer


Q306) Statement 1 : Though light of a single frequency is incident on a metal, the energies of emitted photoelectrons are different.
Statement 2 : The energy of electrons emitted from inside the metal surface is lost in collision with the other atoms in the metal
Show Answer


Q307) Statement 1 : Photoelectric effect demonstrates the particle nature of electrons.
Statement 2 : The number of photoelectrons is proportional to the frequency of light.
Show Answer


Q308) The number of photons falling per seconds on each square metre of earth's surface directly below the sun is Show Answer


Q309) The number of photons in each cubic metre near the earth's surface is Show Answer


Q310) The number of photons emitted by the sun per second Show Answer


Q311) The phenomenon which is just opposite (reverse) to the photoelectric effect is Show Answer


Q312) When ultraviolet rays are incident on a photosensitive metal plate, photoemission is not possible. But it is possible by the incidence of Show Answer


Q313) A beam of light of certain intensity and wavelength ejects photoelectrons from a metal surface. This beam is then replaced by another beam of less intensity and smaller wavelength. As a result Show Answer


Q314) In the experimental arrangement of photoelectric effect, the metal surface is first illuminated with violet light and then with ultraviolet light and the stopping potential is determined in each case. The stopping potential will Show Answer


Q315) Which of the following pairs have linear relationships between themselves when photoelectrons are emitted from a surface? Show Answer


Q316) When a beam of green light is incident on a surface, photo electrons are emitted. If a second beam of different frequency produces photoemission from the same surface, then it may consists of Show Answer


Q317) When the intensity of incident light increases, in a photo electric experiment, the Show Answer


Q318) The 22 cm radiowave emitted by hydrogen in interstellar space is due to the interaction called the hyperfine interaction in atomic hydrogen. What is the energy of the emitted wave? Show Answer


Q319) A radio transmitter operates at a frequency 880 KHz and a power of 10 kW. What is the number of photons emitted per second? Show Answer


Q320) There are two sources of light, each emitting radiations with a power of 100 W. One emits X-rays of wavelength 1 nm and the other visible light at 500 nm. What is the ratio of the number of photons of X-rays to the number of photons of visible light of the given wavelength? Show Answer


Q321) What is the maximum wavelength of light that will excite an electron in the valence band of diamond to the conduction band? The energy gap is 5.5 eV. Show Answer


Q322) The energy required to remove an electron from an aluminium surface is 4.2 eV. If two photons, each of energy 3.0 eV, strike an electron of aluminium, the emission of photoelectrons will Show Answer


Q323) Light of wavelengths 400 nanometer and 800 nanometer produces photoemission in two photoemitters. The ratio of the work function of two emitters is Show Answer


Q324) Ultraviolet radiation of 6.2 eV falls on a metallic surface. If the work function of the metal is 4.2 eV, then the kinetic energy of the fasted electron ejected from the surface is Show Answer


Q325) The maximum K.E. of photoelectrons emitted from a surface, when photons of energy 10 eV fall on it, is 4 eV. The stopping potential is Show Answer


Q326) When light of wavelength 3600 nm falls on a photosensitive plate, photoelectrons are emitted. However, for another photoelectric emitter, light of 6000 nm is sufficient to produce photoemission. What is the ratio of ran the work functions of the two emitters? Show Answer


Q327) Photons of energy 6 eV are incident on a metal surface, whose work function is 4 eV. The minimum K.E. of the emitted photoelectrons will be Show Answer


Q328) What is the stopping potential, when a metal surface with work function 1.2 eV is illuminated with light of energy 3 eV? Show Answer


Q329) When photons of energy h v fall on a metal plate, having a work function W, the maximum kinetic energy of the ejected photo electrons is K. What will be the maximum K.E. of the ejected photo electrons, from the same plate if the frequency of incident radiation is doubled? Show Answer


Q330) Radiation of energy 6.5 eV is incident on a metal surface whose work function is 4.2 eV. What is the potential difference that should be applied to stop the fastest photoelectrons emitted by the metal surface? Show Answer


Q331) The threshold frequency for a photosensitive surface corresponds to an energy of 6.5 eV. If the stopping potential for radiations incident on this surface is 3V, then the energy of the incident radiation will be Show Answer


Q332) A photon of energy 7 eV is incident on a metal surface having the work function of 3.75 eV. What is the stopping potential? Show Answer


Q333) Photons of energy 1.5 eV and 2.5 eV are incident on a metal surface of work function 0.5 eV. What is the ratio of the maximum kinetic energy of the photoelectrons? Show Answer


Q334) In photoelectric effect, the work function of a metal is 3.7 eV. The emitted electron can be stopped by applying a potential of 1.8 V. Then Show Answer


Q335) Einstein's work on photoelectric effect gives support to Show Answer


Q336) The work function of a metal is 4 eV. What should be the wavelength of the incident radiation for the emission of photoelectrons of zero velocity? Show Answer


Q337) Experiments on photoelectric effect allow us to determine the value of Show Answer


Q338) Dimension's of planck's constant are the same as the dimensions of the product of Show Answer


Q339) Monochromatic light incident on a metal surface emits electrons with kinetic energies ranging from 0 to 2.5 eV. What is the least energy of the incident photon, if for removing the tightly bound electron from the metal surface an energy of 4.3 eV is required? Show Answer


Q340) The work function of a substance is 4.0 eV. The longest wavelength of light that can cause photoelectron emission from this substance is approximately equal to Show Answer


Q341) When photons of energy 5 eV fall on a photosensitive surface, the maximum K.E. of the photoelectrons emitted from the surface is 2.5 eV. What is the stopping potential? Show Answer


Q342) When the frequency of the radiation incident on a photosensitive material is increased by 20%, the kinetic energy of the photoelectrons emitted from the surface increases from 0.5 eV to 0.8 eV. What is the work function of the surface? Show Answer


Q343) In a photoelectric experiment, a student plotted the graph of stopping potential (Vs) against the frequency of incident radiation (v). But he could not write the unit of the slope of the graph. What is the correct unit? Show Answer


Q344) When light of frequency v falls on a metal surface, the maximum velocity of the electrons emitted from the surface is v. What will be the maximum velocity of the ejected electrons, if the frequency is increased to 4v? Show Answer


Q345) A metal surface is exposed to light of wavelength 600 nm. The maximum energy of the electron is doubled when light of wavelength 400 nm is used. What is the work function of the metal in eV? [Given: hc = 1240 eVnm] Show Answer


Q346) When the energy of the incident radiation is increased by 20%, the kinetic energy of the photoelectrons emitted from a metal surface increased from 0.5 eV to 0.8 eV. The work function of the metal is Show Answer


Q347) Silver has a work function of 4.7 eV. When ultraviolet light of wavelength 100 nm is incident on it, a potential difference of 7.7 V is required to stop the photoelectrons from reaching the collector plate. How much potential difference will be required to stop the photoelectrons when light of wavelength 200 nm is incident on it? Show Answer


Q348) A source of light is placed at a distance of 1 m from a photo cell and the cut off potential is found to be 5 V. If the source is kept at 1.5 m from the cell, then the cut off potential will be Show Answer


Q349) The work function of two photosensitive surfaces A and B are 5eV and 3eV. Which surface should be selected to prepare a photo cell which is to be used for visible light? Show Answer


Q350) A photocell is illuminated by a point source of light kept at a distance of 50 cm. If the source is shifted by 50 cm away from the photocell, then Show Answer


Q351) When an inert gas is filled in place of vacuum in a photo cell, then Show Answer


Q352) An image of the sun is formed by a convex lens of focal length 30 cm on the metal surface of a photoelectric cell and a photoelectric current I is produced. The lens forming the image is then replaced by another convex lens of the same diameter but of focal length 15 cm. What is the photoelectric current? Show Answer


Q353) When a point source of monochromatic light is at a distance of 0.2 m from a photoelectric cell, the cut-off voltage and the saturation current are 0.6 volt and 18 mA respectively. If the same source is placed 0.6 m away from the photoelectric cell, then Show Answer


Q354) Light from a hydrogen discharge tube is incident on the cathode of a photoelectric cell. The work function of the cathode surface is 4.2 eV. In order to reduce the photoelectric current to zero the voltage of the anode relative to the cathode must be made Show Answer


Q355) If a photon has a velocity c and frequency v and energy E then which one of the following expression represents its wave length? Show Answer


Q356) A particle which has zero rest mass and non zero energy and momentum travels with a speed Show Answer


Q357) The energy of a photon corresponding to visible light of maximum wavelength is approximately Show Answer


Q358) The wavelength of electromagnetic radiation is doubled. What will happen to the energy of the photons of the new radiation? Show Answer


Q359) What is the momentum of a photon of energy 1 MeV in kg m/s? Show Answer


Q360) Photon of frequency v has a momentum associated with it. If c is the velocity of light, the momentum is Show Answer


Q361) The curve drawn between the velocity and the frequency of photons in vacuum will be a Show Answer


Q362) Choose the correct statement from the following. Show Answer


Q363) In Davisson-Germer experiment, an electron beam falls on a nickel crystal. The reflected beam consists of Show Answer


Q364) An alpha particle and a proton are accelerated in such a way that they get the same kinetic energy. What is the ratio of their de-Broglie wavelengths? Show Answer


Q365) The following particles are moving with the same velocity. Then the maximum de-Broglie wavelength will be for Show Answer


Q366) An electron and a proton are accelerated through the same potential difference. The ratio of their de Broglic wavelengths will be Show Answer


Q367) If the kinetic energy associated with a free electron is doubled, then its de Broglie wavelength changes by the factor Show Answer


Q368) An electron and a proton have the same de Broglie wavelength. Then the kinetic energy of the electron is Show Answer


Q369) The relation between the circumference of an electron orbit in a hydrogen atom and the de Broglie wavelength of the electron in the same orbit is given by Show Answer


Q370) The de Broglie wavelength of an electron revolving in the ground state orbit is Show Answer


Q371) An electron is having a kinetic energy of 50 eV. Its de Broglie wavelength is Show Answer


Q372) A potential difference of 15 KV is applied to accelerate in the electrons in an electron microscope. The de Broglie wavelength of the electron waves is Show Answer


Q373) Electrons kept in an enclosure at temperature T have a de Broglie wavelength lambda. If the temperature of the enclosure is increased, then the de Broglie wavelength of the electrons will Show Answer


Q374) What is the additional energy that should be supplied to a moving electron to reduce its de Broglie wavelength from 1 nm to 0.5 nm? Show Answer


Q375) The de Broglie wavelength of an electron in the first Bohr orbit is equal to Show Answer


Q376) If m is the mass of an electron and c is the speed of light, then the ratio of the wavelength of a photon of energy E to that of the electron of the same energy is Show Answer


Q377) If the de Broglie wavelength of a particle is decreased, what will happen to its momentum (p) and K.E. (K)? Show Answer


Q378) A Photon and an electron moving with a velocity v have the same de Broglie wavelength. Then the ratio of the kinetic energy of the electron to the kinetic energy of the photon is [c is the speed of light] Show Answer


Q379) If the radius of the first Bohr orbit is r, then the de Broglie wavelength of the electron in the 4th orbit will be Show Answer


Q380) A photon, an electron and a uranium nucleus all have the same de Broglie wavelength. Which one has the maximum energy? Show Answer


Q381) The de Broglie wavelength of an electron moving in the n th Bohr orbit of radius r is given by Show Answer


Q382) A material particle with a rest mass m is moving with the speed of light (c). What is the de Broglie wavelength associated with it? Show Answer


Q383) A particle is dropped from a height H. The de-Broglie wavelength of the particle as a function of height is proportional to Show Answer


Q384) If the kinetic energy of a particle is increased to 16 times its previous value, the percentage change in the de-Broglie wavelength of the particle is Show Answer


Q385) The anode voltage of a photocell is kept fixed. The wavelength A of the light falling on the cathode is gradually changed. The variation of the plate current (I) of the photocell with wavelength lambda is as shown in the figure Show Answer


Q386) According to Einstein's photoelectric equation, the graph between the kinetic energy of photoelectrons ejected and the frequency of incident radiation is correctly shown in figure Show Answer


Q387) Which one of the following graphs represents the variation of particle momentum and the associated de Broglie wavelength? Show Answer


Q388) Let p and E denote the linear momentum and energy of emitted photon respectively. If the wavelength of incident radiation is increased, then Show Answer


Q389) If the frequency of incident light falling on a photosensitive material is doubled, then the kinetic energy of the emitted photoelectron will be Show Answer


Q390) The number of photoelectrons emitted from a photosensitive surface Show Answer


Q391) On a photosensitive material, when the frequency of incident radiation is increased by 30%, the kinetic energy of the emitted photoelectrons increases from 0.4 eV to 0.9 eV. The work function of the surface is Show Answer