Scroll Down to see all questions Perform the following fundamental calculations using the formulas, constants, and conversion factors given on the Information Sheet • Calculate the wavelength (in nanometers) for electromagnetic radiation having an energy of 2.000x10-19 Joules. wavelength = nanometers • Calculate the frequency (in s¹) for electromagnetic radiation having a wavelength of 495.0 nanometers. frequency= • The work function energy for a particular metal is 282.0 kJ per mole of electrons ejected. Calculate the work function energy in joules per electron eje work function energy- joules per electron ejected

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Scroll Down to see all questions Perform the following fundamental calculations using the formulas, constants, and conversion factors given on the Information Sheet • Calculate the wavelength (in nanometers) for electromagnetic radiation having an energy of 2.000×10-19 Joules. wavelength = • Calculate the frequency (in s¯¹) for electromagnetic radiation having a wavelength of 495.0 nanometers. frequency = work function energy = • The work function energy for a particular metal is 282.0 kJ per mole of electrons ejected. Calculate the work function energy in joules per electron ejected. work function energy = • The work function energy for a particular metal is 2.80 eV (electron volts) per electron ejected. Calculate the work function energy in joules per electron ejected. [1 eV = 1.602x10- J]. -19 work function energy = nanometers S1 •The work function energy for a particular metal is 2.50 eV (electron volts) per electron ejected. Calculate the work function energy in kJ/mol (of electrons ejected). [1 eV = 1.602×10-1⁹ J]. velocity = kinetic energy (in joules) of a proton = • Calculate the kinetic energy (in joules) of a proton travelling at a velocity of 3.70×105 meters/sec. wavelength= Chook joules per electron ejected = • Calculate the velocity of a neutron travelling with a kinetic energy of 9.00×10-1⁹ joules. joules per electron ejected kJ/mol (of electrons ejected) meters/sec • Calculate the de Broglie wavelength wavelength (in angstroms) for an electron having kinetic energy of 3.00×10-19 Joules. [Energy →velocity→wavelength] angstroms joules