307430 Which of the following relates to photons both as wave motion and stream of particles?

307431 Calculate the wavelength of light required to break the bond between two chlorine atoms in a chlorine molecule. \({\rm{The}}\,{\rm{Cl}} - {\rm{Cl}}\,{\rm{bond}}\,{\rm{energy}}\,{\rm{is}}\,{\rm{243\;kJ\;mo}}{{\rm{l}}^{{\rm{ - 1}}}} \cdot \)
\(\left( {{\rm{h}} = 6.6 \times {{10}^{ - 34}}{\rm{Js}},{\rm{c}} = 3 \times {{10}^8}\;{\rm{m}}/{\rm{s}}} \right.\), Avogadro's number \(\mathrm{h}=6.02 \times 10^{23} \mathrm{~mol}^{-1}\) )

307432 Calculate the energy in joule corresponding to light of wavelength 45 nm: (Planck’s constant \({\rm{h = 6}}{\rm{.63 \times 1}}{{\rm{0}}^{{\rm{ - 34}}}}\,{\rm{Js;}}\) speed of light \({\rm{c = 3 \times 1}}{{\rm{0}}^{\rm{8}}}{\rm{m}}{{\rm{s}}^{{\rm{ - 1}}}}{\rm{)}}\)

307433 Nitrogen laser produces a radiation at a wavelength of \(\mathrm{337.1 \mathrm{~nm}}\). If the number of photons emitted is \(\mathrm{5.6 \times 10^{24}}\). Calculate the power of this laser.

307430 Which of the following relates to photons both as wave motion and stream of particles?

307431 Calculate the wavelength of light required to break the bond between two chlorine atoms in a chlorine molecule. \({\rm{The}}\,{\rm{Cl}} - {\rm{Cl}}\,{\rm{bond}}\,{\rm{energy}}\,{\rm{is}}\,{\rm{243\;kJ\;mo}}{{\rm{l}}^{{\rm{ - 1}}}} \cdot \)
\(\left( {{\rm{h}} = 6.6 \times {{10}^{ - 34}}{\rm{Js}},{\rm{c}} = 3 \times {{10}^8}\;{\rm{m}}/{\rm{s}}} \right.\), Avogadro's number \(\mathrm{h}=6.02 \times 10^{23} \mathrm{~mol}^{-1}\) )

307432 Calculate the energy in joule corresponding to light of wavelength 45 nm: (Planck’s constant \({\rm{h = 6}}{\rm{.63 \times 1}}{{\rm{0}}^{{\rm{ - 34}}}}\,{\rm{Js;}}\) speed of light \({\rm{c = 3 \times 1}}{{\rm{0}}^{\rm{8}}}{\rm{m}}{{\rm{s}}^{{\rm{ - 1}}}}{\rm{)}}\)

307433 Nitrogen laser produces a radiation at a wavelength of \(\mathrm{337.1 \mathrm{~nm}}\). If the number of photons emitted is \(\mathrm{5.6 \times 10^{24}}\). Calculate the power of this laser.

307430 Which of the following relates to photons both as wave motion and stream of particles?

307431 Calculate the wavelength of light required to break the bond between two chlorine atoms in a chlorine molecule. \({\rm{The}}\,{\rm{Cl}} - {\rm{Cl}}\,{\rm{bond}}\,{\rm{energy}}\,{\rm{is}}\,{\rm{243\;kJ\;mo}}{{\rm{l}}^{{\rm{ - 1}}}} \cdot \)
\(\left( {{\rm{h}} = 6.6 \times {{10}^{ - 34}}{\rm{Js}},{\rm{c}} = 3 \times {{10}^8}\;{\rm{m}}/{\rm{s}}} \right.\), Avogadro's number \(\mathrm{h}=6.02 \times 10^{23} \mathrm{~mol}^{-1}\) )

307432 Calculate the energy in joule corresponding to light of wavelength 45 nm: (Planck’s constant \({\rm{h = 6}}{\rm{.63 \times 1}}{{\rm{0}}^{{\rm{ - 34}}}}\,{\rm{Js;}}\) speed of light \({\rm{c = 3 \times 1}}{{\rm{0}}^{\rm{8}}}{\rm{m}}{{\rm{s}}^{{\rm{ - 1}}}}{\rm{)}}\)

307433 Nitrogen laser produces a radiation at a wavelength of \(\mathrm{337.1 \mathrm{~nm}}\). If the number of photons emitted is \(\mathrm{5.6 \times 10^{24}}\). Calculate the power of this laser.

307430 Which of the following relates to photons both as wave motion and stream of particles?

307431 Calculate the wavelength of light required to break the bond between two chlorine atoms in a chlorine molecule. \({\rm{The}}\,{\rm{Cl}} - {\rm{Cl}}\,{\rm{bond}}\,{\rm{energy}}\,{\rm{is}}\,{\rm{243\;kJ\;mo}}{{\rm{l}}^{{\rm{ - 1}}}} \cdot \)
\(\left( {{\rm{h}} = 6.6 \times {{10}^{ - 34}}{\rm{Js}},{\rm{c}} = 3 \times {{10}^8}\;{\rm{m}}/{\rm{s}}} \right.\), Avogadro's number \(\mathrm{h}=6.02 \times 10^{23} \mathrm{~mol}^{-1}\) )

307432 Calculate the energy in joule corresponding to light of wavelength 45 nm: (Planck’s constant \({\rm{h = 6}}{\rm{.63 \times 1}}{{\rm{0}}^{{\rm{ - 34}}}}\,{\rm{Js;}}\) speed of light \({\rm{c = 3 \times 1}}{{\rm{0}}^{\rm{8}}}{\rm{m}}{{\rm{s}}^{{\rm{ - 1}}}}{\rm{)}}\)

307433 Nitrogen laser produces a radiation at a wavelength of \(\mathrm{337.1 \mathrm{~nm}}\). If the number of photons emitted is \(\mathrm{5.6 \times 10^{24}}\). Calculate the power of this laser.