Make a graph of laser energy vs. the kinetic energy of the ejected electrons from your data in the data table. Include a couple of the higher wavelength values that you observed in step 9. Graph the laser energy in *10-19 Joules on the x-axis and the electron kinetic energy in *10-19 Joules on the y-axis. Wavelength Frequency(nm)Ejected Electron KineticEnergy (J)LaserElectron(Hz)Energy (J)Intensity400 nm7.5 x 10^ -14 Hz0.50564.0 x 10^-7 m0.5056 x 10 ^-19 J0.460410 nm0.2753 x 10^19 J0.05227.3 x 10^ -14 Hz0.27534.1 x 10^-7 m420 nm4.2 х 10^-7 m7.14 x 10^ -14 Hz0.20220.2022 х 10^л19 J0.0500430 nm6.9 x 10^ -14 Hz0.1348 x 10^19 J0.04784.3 х 10^-7 m0.1348440 nm6.8 x 10^ -14 Hz4.4 x 10^-7 m0.084270.08427 x 10^19 J0.0536450 nm6.6 x 10^ -14 Hz4.5 х 10^-7 m460 nm6.5 x 10^ -14 Hz4.6х 10^-7 m

1.IN THE QUESTION THE POWERS OF 10 IN FREQUENCY TABLE AND KINETIC ENERGY OF ELECTRONS ARE WRONG.…

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Advanced Physics

Graph the laser energy in *10-19 Joules on the x-axis and the electron kinetic energy in *10-19 Joules on the y-axis

Graph the laser energy in 10-19 Joules on the x-axis and the electron kinetic energy in 10-19 Joules on the y-axis

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Question

Make a graph of laser energy vs. the kinetic energy of the ejected electrons from your data in the data table. Include a couple of the higher wavelength values that you observed in step 9. Graph the laser energy in *10-19 Joules on the x-axis and the electron kinetic energy in *10-19 Joules on the y-axis.